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Title: generative ai based secure wireless sensing for isac networks.

Abstract: Integrated sensing and communications (ISAC) is expected to be a key technology for 6G, and channel state information (CSI) based sensing is a key component of ISAC. However, current research on ISAC focuses mainly on improving sensing performance, overlooking security issues, particularly the unauthorized sensing of users. In this paper, we propose a secure sensing system (DFSS) based on two distinct diffusion models. Specifically, we first propose a discrete conditional diffusion model to generate graphs with nodes and edges, guiding the ISAC system to appropriately activate wireless links and nodes, which ensures the sensing performance while minimizing the operation cost. Using the activated links and nodes, DFSS then employs the continuous conditional diffusion model to generate safeguarding signals, which are next modulated onto the pilot at the transmitter to mask fluctuations caused by user activities. As such, only ISAC devices authorized with the safeguarding signals can extract the true CSI for sensing, while unauthorized devices are unable to achieve the same sensing. Experiment results demonstrate that DFSS can reduce the activity recognition accuracy of the unauthorized devices by approximately 70%, effectively shield the user from the unauthorized surveillance.

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Publications, recent advances in integrated sensing and communications, publication date, fourth quarter 2025, manuscript submission deadline, 30 january 2025, call for papers.

Next-generation wireless networks are poised to become essential enablers for a variety of new applications that require not just high-speed connectivity but also precise and reliable perception capabilities. Looking ahead to 5G-A and 6G developments, a key prediction is the increasing importance of sensing technology. This advancement anticipates that future cellular systems will be able to sense and interpret their environment, supporting sophisticated location- and imaging-based services. The research area focused on merging sensing and communication technologies is known as Integrated Sensing and Communications (ISAC), which aims to develop frameworks and technologies that integrate both functionalities, enhancing resource efficiency and generating mutual advantages. This approach is being applied in several new fields, including autonomous vehicles, smart factories, digital twins, and low-altitude economy. With the convergence of mmWave/THz frequencies and massive MIMO technology, the boundaries between communication and sensing systems are blurring, particularly in terms of their hardware platforms, RF front-ends, channel characteristics, and data processing techniques. Consequently, ISAC is advancing from theoretical concept to practical implementation, and even to standardization. Evidently, the International Telecommunication Union (ITU) has recently acknowledged ISAC as a critical component of the 6G vision, identifying it as one of the six core use cases anticipated for the next generation of networks.

This Special Issue seeks to bring together contributions from researchers and practitioners in the area of wireless communications, signal processing, with an emphasis on the recent advances of new approaches and techniques for ISAC designs. We solicit high-quality original research papers on topics including, but not limited to:

• Fundamental information-theoretic limits for ISAC
• Waveform/sequence/coding/modulation/beamforming design for ISAC
• MIMO, massive MIMO, and extremely large-scale MIMO for ISAC
• Intelligent/holographic surface and movable/fluid antennas for ISAC
• Millimeter wave and THz technologies for ISAC
• Channel modeling and measurement for ISAC
• RF front-ends and circuits design for ISAC
• Hardware prototyping and field-tests for ISAC
• Near-field ISAC transmission
• Security and privacy issues in ISAC
• ISAC design for V2X/UAV networks
• Sensing and positioning over communication networks
• Cell-free ISAC networks
• AI for ISAC
• Integrated communications and multi-modal sensing
• Integrated optical/underwater sensing and communications
• Wi-Fi sensing for indoor positioning and target recognition
• Standardization progress of ISAC

Submission Guidelines

Prospective authors should submit their manuscripts following the IEEE JSAC  guidelines . Authors should submit a PDF version of their complete manuscript to a link that will be announced soon, according to the following schedule:

Important Dates

Manuscript Submission: 30 January 2025 First Notification: 1 May 2025 Acceptance Notification: 15 August 2025 Final Manuscript Due: 30 August 2025 Publication Date: Fourth Quarter 2025

Guest Editors

Fan Liu Southern University of Science and Technology, China

Christos Masouros University College London, UK

Jie Xu The Chinese University of Hong Kong, Shenzhen, China

Tony Xiao Han Huawei Technologies Co. Ltd., China

Sang G. Kim LG Electronics, USA

Yonina Eldar Weizmann Institute of Science, Israel

Stefano Buzzi University of Cassino and Lazio Meridionale, Italy

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Open Access

Peer-reviewed

Research Article

Analysis of symbiotic backscatter empowered wireless sensors network with short-packet communications

Roles Conceptualization, Writing – original draft

Affiliation Wireless Communications Research Group, Faculty of Electrical and Electronics Engineering, Ton Duc Thang University, Ho Chi Minh City, Vietnam

Roles Formal analysis, Writing – original draft

Affiliation Faculty of Engineering and Technology, Nguyen Tat Thanh University, Ho Chi Minh City, Vietnam

Roles Formal analysis, Methodology

Affiliation Posts and Telecommunications Institute of Technology, Ho Chi Minh City, Vietnam

Roles Validation, Writing – review & editing

* E-mail: [email protected]

Affiliation Department of Software and Communications Engineering, Hongik University, Sejong, South Korea

• Quang Vinh Do, 
• Bui Vu Minh, 
• Quang-Sang Nguyen, 
• Byung-seo Kim

• Published: August 26, 2024
• https://doi.org/10.1371/journal.pone.0307366
• Peer Review
• Reader Comments

Recent progress studies in light of wireless communication systems mainly centred around two focuses: zero-energy consumption and ultra-reliable and low-latency communication (URLLC). Among various cutting-edge areas, exploiting ambient backscatter communication (Backcom) has recently been devised as one of the foremost solutions for achieving zero energy consumption through the viability of ambient radio frequency. Meanwhile, using short-packet communication (SPC) is the cheapest way to reach the goal of URLLCs. Upon these benefits, we investigate the feasibility of Backcom and SPC for symbiotic wireless sensor networks by analyzing the system performance. Specifically, we provide a highly approximated mathematical framework for evaluating the block-error rate (BLER) performance, followed by some useful asymptotic results. These results provide insights into the level of diversity and coding gain, as well as how packet design impacts BLER performance. Numerical results confirm the efficacy of the developed framework and the correctness of key insights gleaned from the asymptotic analyses.

Citation: Do QV, Minh BV, Nguyen Q-S, Kim B-s (2024) Analysis of symbiotic backscatter empowered wireless sensors network with short-packet communications. PLoS ONE 19(8): e0307366. https://doi.org/10.1371/journal.pone.0307366

Editor: Kamarul Ariffin Noordin, Universiti Malaya, MALAYSIA

Received: March 24, 2024; Accepted: July 4, 2024; Published: August 26, 2024

Copyright: © 2024 Do et al. This is an open access article distributed under the terms of the Creative Commons Attribution License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

Data Availability: We confirm that “All relevant data are within the manuscript and its Supporting information files.” We have also provided our simulation code as Supporting information Files.

Funding: This work was supported by the National Research Foundation of Korea (NRF) grant funded by the Korea government (MSIT) (No. 2022R1A2C1003549).

Competing interests: The authors have declared that no competing interests exist.

1 Introduction

With the widespread adoption of the Internet-of-Things (IoT), next-generation wireless networks are seeing an influx of emerging IoT applications and services [ 1 ]. These applications and services are not limited to interactions between a specific system, such as wireless sensor networks (WSNs), cellular networks, or vehicle networks, but also extend to new categories such as telemetry, healthcare, smart grids, digital twins, and the metaverse [ 2 ]. In which, artificially intelligent technology plays a core role in controlling, collaborating and coordinating network components [ 3 ]. Along with the benefits brought by IoT context, it also renders several challenges to the development of physical wireless systems [ 4 ]. For instance, how to accommodate the increasing demand for connected devices when the current spectrum is full, prolong the activities of IoT devices with limited power resources, and provide ultra-reliable and low-latency wireless communication (URLLC).

Amidst the shortage of available radio frequencies, several efficient strategies have been proposed to tackle this challenge. The first aim is to line on full-duplex communication to increase spectrum efficiency [ 5 ] but requires refined successive interference cancellation (SIC) approaches to move residual interference it produces [ 6 , 7 ]. Another strategy is to take advantage of multiple access technologies, such as non-orthogonal multiple access [ 8 ] and rate-splitting multiple access [ 9 ], which enable multiple users to communicate simultaneously using the same time and frequency resource block. However, exploiting such multiple access is tedious because it is only suitable for a single network. As a result, recent progress on multiple access typically combines it with two potential types of cognitive radio (CR) paradigms [ 10 , 11 ], overlay and underlay. While underlay allows the secondary network to coexist with the primary network subject to power-tolerant constraints, overlay networks operate under free interference [ 12 ]. However, with the disadvantage characteristics by themselves, the realization of CR solutions also becomes controvertible [ 13 , 14 ].

In the wake of energy constraints, energy harvesting (EH) solutions have emerged as an alternative that allows IoT devices to charge their batteries without human intervention [ 15 ]. Compared to charging energy from surrounding natural sources such as wind or sun, radio-frequency (RF) EH is voted as the most cost-effective solution, with two representations of wireless-power transfer communication network and simultaneously wireless information power transfer [ 16 ]. According to many reports in the literature [ 17 – 22 ], the nature of active communication enabled by RF signals consumes relatively high power, and this might not be favourable to large-scale IoT deployments in the long term. Thus, it raises the question of finding new alternatives with sustainable RF-EH capabilities and low power consumption.

Driven by the two necessities above, symbiotic communication, a new paradigm shift for passive IoT, has recently emerged as the ultimate solution to tackle the issues of spectrum scarcity and low-power consumption [ 23 ]. Symbiotic paradigm is a revolutionary concept that expertly blends the strengths of two existing paradigms [ 24 ], ambient backscatter communication (Backcom) and CR. In this paradigm, the backscatter device passively modifies the received signal from the primary transmitter with its information before sending it back to the secondary receiver [ 25 ], effectively changing its load impedance instead of using dedicated RF components. This allows Backcom to act similarly to CR paradigms while consuming zero energy. This functionality helps a symbiotic paradigm to achieve properties of mutualism, commensalism or parasitism [ 26 ]. Due to this prominent feature, the research on Backcom with symbiotic mediums has recently attracted significant momentum from both industrial and academia. For example, a full-duplex Backcom solution was proposed to symbiotic radio (SR) system [ 27 ]. In [ 28 ], three practical cooperative transmission schemes was proposed for symbiotic radio systems. The work in [ 29 ] provided a thorough and authoritative review of the systematic view for SR, along with critical discussions to enhance the backscattering link, achieve highly reliable communications, and effectively utilize reconfigurable intelligent surfaces. In [ 30 ], a novel beamforming design was proposed to multiple-input-multiple-output SR backscatter system. Meanwhile, the work in [ 31 ] studied SR communication system in the presence of multiuser multi- backscatter-device. In [ 32 ], two SR schemes were designed for a pair of backscatter devices, is that, opportunistic commensal and opportunistic parasitic. In [ 33 ], a symbiotic localization and Backcom architecture was developed for IoT localize target objects to achieve two mutual benefits: sensing and communication stage. In [ 34 ], an investigation of Backcom was put forward in symbiotic cell-free massive multiple-input multiple-output systems. Meanwhile, an innovative solutions for enhancing the security of low-power IoT devices using ambient backscatter communication was introduced in [ 35 ], with a strong focus on the balance between energy efficiency and security. In a very recent time, the work in [ 36 ] presented advances in enhancing the robustness of wireless communication systems against jamming attacks by designing a novel beamforming technique that utilizes the concept of symbiotic radio to effectively use the null space of interference, thereby enhancing safeguarding data transmission significantly.

On the other hand, to deal with stringent URLLC conditions, where transmission latency is expected to be less than 1 ms while reliability is from 99.9% to 99.9999%, recent efforts propose to rethink the design of packet size [ 37 ]. Specifically, reducing packet size to improve the physical layer transmission latency; however, this action results in a higher error rate transmission. In this case, there is no way to use a finite blocklength message coding scheme to boost reliable communication. Based on Polyanskiy’s novel infinite block length theory, published in 2010 [ 38 ], the research on short-packet communication (SPC) has recently emerged as a vital solution and is receiving considerable interest from research communities [ 39 – 42 ]. In that, block-error rate (BLER) is devised to be the key metric instead of using outage probability or ergodic Shannon capacity for the performance evaluation.

Towards a green IoT network for the future, the interplay between symbiotic Backcom and SPC becomes the pivotal direction. In the past, several works investigated the benefits brought by SPC with conventional Backcom systems (backscatter devices are deployed for enhancing communication coverage only), such as resource allocation [ 43 ], energy efficiency [ 44 ], and error performance for finite backscatter channels [ 45 ]. However, to the best of authors’ knowledge, the research on symbiotic Backcom systems with SPC remains unexplored in the literature. Therefore, this inspires us to investigate the feasibility of SPC in symbiotic Backcom systems. In particular, the main focus of this work is on the performance of symbiotic Backcom-empowered WSNs with SPC, where the secondary backscatter transmitter is parasitic from the primary network. Overall, the main contribution of this article can be outlined as follows:

• Towards future green URLLC use cases, this article studies the performance of symbiotic backscatter-empowered WSNs, where a passive backscatter device with energy constraints in the secondary networks exploits ambient RF signals generated by the primary transmitter for the primary receiver as a green power source to be able to communicate with the secondary IoT receiver. To reject interference impacted by a primary transmitter’s RF signals, SIC enables the IoT receiver to decode its signal from a passive backscatter device.
• How much diversity and coding gains does the considered system achieve when compared to a system using uncoded transmission?
• How do the packet designs affect the BLER performance?
• To validate our developed mathematical framework, we provide some extensive numerical results based on Monte-Carlo simulations method. It is interesting to show that this framework accurately predicts the actual result with very minor errors, even with a series of approximation approaches used. Besides, it also confirms the performance trend findings of the reflection coefficient designed at the backscatter device, the packet construction involving packet length and number of information bits, as well as the transmit power of the primary transmitter. Furthermore, we through numerical results have that when boosting the reflection coefficient exceeds 2.5 (unit), the BLER performance of the secondary IoT receiver converges to saturation.

The remainder of this article is covered as follows. Section 2 describes the system model, followed by the average BLER analysis in Section 3. Next, Section 5 provides some numerical results before concluding the article in Section 5.

2 System model

Let us consider a symbiotic backscatter communication system as shown in Fig 1 , where the cellular network, called the primary network, coexists with an IoT sensor network, called the secondary network. In this setup, a backscatter device (named by BD) exploits the available RF signal when carrying a symbol x ( t ) sent from the primary transmitter (denoted by PT) to the primary receiver (called PR) to convey its symbol information c ( t ) to the secondary IoT sensor receiver (i.e., IR), with t being the time t . In which, the packet information sent by BD has data amount N IR bits with packet length L IR (or the equivalent terminologies: channel use or blocklength), while that of PT includes data amount N PR bits with packet length L PR . Due to the presence of the multiplicative fading phenomenon and long-distance communication, no interference occurs from BD to the signal of PR [ 27 , 29 , 33 ]. Meanwhile, there always exists interference from PT to IR, which therefore requires the adoption of SIC approach at IR to subtract x from the received signal before detecting c ( t ). In this investigation, all wireless channels are assumed to follow quasi-static Rayleigh block fadings, which means that channels vary very small or even with static. Thus, it is reasonable to consider the availability of global channel state information at the terminals via statistical channel measurement methods [ 39 – 42 , 45 ].

• PPT PowerPoint slide
• PNG larger image
• TIFF original image

https://doi.org/10.1371/journal.pone.0307366.g001

3 Average BLER analysis

3.1 Average BLER analysis of Primary Receiver (PR)

3.1.1 statistical analysis of snr distribution..

3.1.2 Average BLER analysis.

Having obtained the CDF of γ PR in hand, we are next so excited to derive the average BLER of PR by making use of the relation in (11) .

Having achieved Theorem 1, we are interested in concluding that the average BLER of PR can be characterized by a unique function involving all elementary functions. Thus, it is feasible to use common integrated software packages (i.e., Matlab, Maple, or Mathematica) to dissect the average BLER performance by this function without any simulation or actual testing. Yet, it would be extremely meaningful to explore or answer the questions of whether is there any simpler way to characterize the average BLER performance limits at a high SNR regime and how much performance gain the system can be achieved compared to an uncoded transmission.

3.2 Average BLER analysis of IoT sensor receiver

3.2.1 statistical analysis of snr distribution..

3.2.2 Average BLER analysis.

Having obtained the CDF of γ IR in hand, we are next so excited to derive the average BLER of IR by making use of the relation in (11) .

4 Numerical results and discussions

This section provides some illustrative numerical results using Monte-Carlo simulations to validate our developed mathematical framework, where the number of used channel realization samples is 10 5 . Without loss of generality, we consider the specific parameters for Rayleigh channels as follows: λ PT,PR = 2, λ PT,BD = 4, λ PT,IR = 3, and λ BD,IR = 5 (channel modeling has been early described at Eq 1 ). Unless otherwise specified, the key simulation parameters related to packet designs and transmit SNR are set as follows: α = 0.5, L RX = 256 c.u, N PR = 300 bits, N IR = 80 bits, and Ψ = 25 dB.

Fig 2 shows the average BLER versus α . We look at the case where PT sends 300 bits of data to PR, while BD produces 80 bits of data for command control sync. It is observed that the error performance of PR remains constant with respect to α since its receiving signal does not gain any backscattering signal from BD. Meanwhile, IR’s error performance tends to reduce with a small value of α and then become saturated. This is because on the one hand, scaling up α improves the received SNR signal to decode c ( t ) in (6) but decreases the received SINR signal to decode x ( t ) in (5) on the other hand. Recall that the SIC procedure dominates the decoding process at IR. Taking these together therefore explains why increasing α does not yield any error performance improvement.

https://doi.org/10.1371/journal.pone.0307366.g002

Fig 3 explores the impact of block-length L RX on the average BLER. From the figure, we can see that while the error performance of PR reduces considerably with an increase in L RX , that of IR decreases relatively low. The reasons are interpreted as follows: 1) for PR, the received SNR given in (3) does not suffer from any SIC, which gives PR a chance to decode x ( t ) without interference. Thus, it is safe to conclude that the more block-length (channel use) of the information transmission, the higher the reliability of the communication channel. Recall that, such phenomenon completely accords the analysis for the developed expression in (16) . 2) for IR, its decoding process takes place in two phases of decoding x ( t ) and c ( t ), respectively. Thus, this process will increase an expected error during decoding c ( t ), making the error performance of IR to be reduced slowly. Recall that such a phenomenon can be directly explained from (29) , where increasing L PR reduces the exponential component but scales up the Meijer-G component accordingly.

https://doi.org/10.1371/journal.pone.0307366.g003

Fig 4 showcases the average BLER against data amount sent by PT and BD. As observed, conveying more data over a fixed channel use to the receiving node causes more errors during communication, thereby leading to an increase in the BLER trend. These trends are perfectly matched with our analyses for the expression in (16) and (29) . In this case, a more channel should be allocated to boost reliable communication. Yet, this assignment might not be beneficial to the systems as it is equivalent to an increase in the transmission latency. Therefore, it is necessary to consider balancing such configuration for each application critically.

https://doi.org/10.1371/journal.pone.0307366.g004

Fig 5 depicts the impact of Ψ on the average BLER. Overall, we can find that increasing Ψ significantly improves the average BLER of PR and the trend is linearly decreasing. Clearly, this observation perfectly matches up with the developed formula in (16) , where the error performance also becomes zero when we take into consideration 1/Ψ = 0. Meanwhile, varying PR only improves the BLER of IR in moderate SNR but saturates at high SNR, which perfectly agrees with the conclusion drawn on (30) . On this basis, in order to improve the BLER of IR, we should take care of both increasing Ψ in conjunction with an increasing number of block-lengths.

https://doi.org/10.1371/journal.pone.0307366.g005

5 Conclusion

In this work, we have studied the performance of symbiotic backscatter communication systems with short-packet transmissions. Particularly, aiming to characterize the system performance without performing any simulation, we derived closed-form approximate and asymptotic expressions of the average BLER for both the primary receiver and IoT sensor. These mathematical frameworks enable us to directly assess the system performance by the key parameters of the transmit power, fading parameters, data amount, and packet length. To ensure the correctness of the developed mathematical framework, we produced some illustrative simulation results based on the Monte-Carlo simulation while comparing the actual impact of system parameters on the BLER behaviour over the analysis outcome.

Supporting information

https://doi.org/10.1371/journal.pone.0307366.s001

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• Development and use of a GPS ionospheric scintillation monitor
• The use of GPS for vehicle stability control systems
• ray-tracing operator and its adjoint for the use of GPS/MET refraction angle measurements
• Various Uses of the GPS Operational Control System (OCS) Tracking Data
• The Design of a Constructivist Learning Experience that uses GPS Technology
• GPS INS uses low-cost MEMS IMU

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PREVIOUS YEAR TOPICS

1. Smart Visitor Guidance Robot with Embedded Touchscreen Panel featuring Onscreen Signature Verification, Campus Map       Problem Description:  Rendering and Multi-Lingual Voice 2. Voice Recognition Robotic Dog Guides Visually Impaired People 3. Advance Automatic Toll Collection & Vehicle Detection During Collision using RFID 4. An Automatic Driver Drowsiness Alert System by using GSM. 5. A Remote Sensing Nano-Satellite running Hard Real Time Control and Communication System Sending Camera Images to     Ground Control Nano Satellite Station 6. Accurate Attitude Estimation of a Moving Land Vehicle Using Low-Cost MEMS IMU Sensors. 7. Design and Implementation of a Substation Automation Unit. 8. Smart Home Automation System Using Bluetooth Technology. 9. A Real-Time Flood Alert System for Parking Lots. 10. Statistical Meta-Analysis of Presentation Attacks for Secure Multibiometric Systems. 11. Gadget Improved Security Alert Monitoring, Management and Mitigation System to Control the Crowded Occasions. 12. Anti-theft Protection of Vehicle by GSM & GPS with Fingerprint Verification. 13. E-health Acquistion, Transmission &Monitoring System. 14. Design and Implementation of Remotely Located Energy Meter Monitoring with Load Control and Mobile Billing System through GSM. 15. Detection of seat occupancy using a wireless inductive sensor. 16. Anonymous Secure Framework in Connected Smart Home Environments. 17. Wearable Glove-Type Driver Stress Detection Using a Motion Sensor. 18. Towards Detection of Bus Driver Fatigue Based on Robust Visual Analysis of Eye State. 19. Child Safety Wearable Device. 20. The Development of a Remotely Controlled Home Automation System for Energy Saving. 21. Electrical Appliances Control Prototype by Using GSM Module and Arduino. 22. RFID-Based Attendance Management System. 23. Exploring the Effect of Food Intake and Physical Activity on Body Weight. 24. Exploring the Effect of Food Intake and Physical Activity on Body Weight. 25. Design and Implementation of Real Time Transformer Health Monitoring System Using GSM Technology. 26. Visual Impairment Aid Using Haptic And Sound Feedback. 27. Wireless MEMS-Based Accelerometer Sensor Boards for Structural Vibration Monitoring: A Review. 28. Sensor Fusion-Based Low-Cost Vehicle Localization System for Complex Urban Environments. 29. Low-Cost Wireless Monitoring and Decision Support for Water Saving in Agriculture. 30. Design of Bus Tracking and Fuel Monitoring System. 31. Design and Implementation of an RFID-Based Customer Shopping Behavior Mining System. Speech Operated Wireless Family Living Supporting System 33. GSM based Automatic Energy Meter Reading 34. System with Instant Billing 35. Device Control by using GSM Network 36. GSM based Condition Reporting System for Power 37. Station Equipment 38. Automobile Antitheft system based on GPS & GSM 39. Low-Cost Wireless System for Measuring Energy Efficiency in Industries 40. Low Cost Electricity Meter Reading System using GSM 41. A Smart Prepaid Energy Metering System to Control 42. Electricity Theft 43. Wireless based Load Control and Power Monitoring System 44. Child Left behind Warning System based on Force Sensitive Resistor 45. Environment Monitoring and Device Control using Embedded Controlled Sensor Network 46. Accessible Display Design to Control Home Area Networks 47. Building Automation Through Web Interface 48. Wireless Remote Control Technology in Intelligent Buildings System 49. Smart Home System Using Android Application 50. Local Area Web Server for Wireless Robotic Control 51. Real-Time Smart Meter with Embedded Web Server Capability 52. Coal Mine Safety Monitoring System using WSN and Embedded Ethernet 53. A CAN Bus based System for Monitoring and Fault Diagnosis in Turbine 54. Controller Area Network for Intelligent Vehicular Systems 55. Portable Wireless Biomedical Temperature Monitoring SystemArchitecture and Implementation 56. Head Motion Controlled Wheel Chair 57. Portable Wireless Biomedical Temperature Monitoring System Architecture and Implementation 58. Wireless Gas Leakage Monitoring System 59. Microclimate Controlled Irrigation System for 60. Rural Farmers using GSM 61. Controller Area Network for Intelligent Vehicular Systems 62. Embedded Ethernet Technology in Process Control Devices

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Wireless Communication Thesis Topics

     Wireless Communication Thesis Topics provides have started to give well defined thesis for your research career and academic grades. We have highly talented and multi-skills professionals to serve your betterment in research and academic projects. And We have also developed nearly 7000+ wireless communications projects, which make us assist students and scholars in an innovative way.

We also have faced several issues in wireless communications and provides guarantee solutions immediately. Due to this reason, we are one popular institute among the world-renowned institutes. We also focused on the latest and innovative trend that depends on current technology to attain a high degree of research work.

We provide 100% assurance of the high quality of work with on-time delivery projects for those engaged with us. And also We also provide support through our 120+ branches throughout the world for your convenience.

Communication Thesis Topics

     Wireless Communication Thesis Topics offer you innovative platform to reach your destination with great success. In the past 10+ years, we are also working with Wireless Communication Thesis and tie-up with many leading universities and colleges globally.

We also provide services for thesis writing, paper writing, project guidance, assignment and project development, etc. Our experts can handle any type of tool for your research work and final year academic projects. We also provide full support through our various services (online and offline) if you previously connected with us.

Let’s view some of the important wireless communication areas and recent topics that are as follow,

Major research areas, control systems:.

• Traffic light controller
• Controlling mobile Robots
• Speed control also for induction motors
• Synchronous Dynamic Random Access Memory [SDRAM] controller
• Fuzzy logic based DC motor control system
• Speed control system also for high speed train
• Armature controlled DC motor
• Schneider electric’s Esmi access control system
• BMW’s voice recognition system
• New drone control system
• Aperio and Axis bring wireless access control
• Acuity’s xCella wireless control system
• Movcan 3-axis wireless lens control system
• SMARTair Pro
• Photovoltaic system control
• Turnkey sensor system
• RAE systems
• Automated Solar [Microcontroller [89S51, 8051, 89C51], Analog to digital converters 0808]
• Air management and also environment
• Aerodynamics
• Hydraulics system
• Propulsion and fuel
• Airborne wireless network
• Radar remote sensing
• Astrodynamics
• Electro technology
• Aeroelasticity, Avionics and also Aeroacoustics
• Infrared sensors market Aerospace
• Nanoscale wireless communication
• Avionics-Electronics cooling
• UTC Aerospace systems

Power Line Communications:

• Hybrid electric vehicle
• White electric vehicle
• Monitoring distributed transformers
• Data concentrators
• Electricity meters
• Smart metering
• Energy gateways
• In Home display units
• Security systems / Keyless entry
• Sensor control and also Data Acquisition
• Industrial Automation
• Building Automation
• Hybrid optoelectronic sensor [Monitoring overhead also in transmission line]
• Heating Ventilation and Air Conditioning(HVAC)

Power Generation [Smart Grid]:

• Thermal power plant
• Nuclear power plant
• Wind power plant
• Hydroelectric power station
• Solar, Wind and also Marine
• Osmosis and also Biomass
• Steel mills, blast furnace exhaust gas
• Geothermal power
• Hydraulic power generation
• Photovoltaic cell
• Steam turbine and Gas turbine
• Fossil- fuel power stations

VLSI [Very Large Scale Integrated Circuits]

• STA simplification and DFT
• Design rule optimization
• DRC automation
• High performance transistor designing
• EDA algorithm improvement
• Data processing neuromorphic chip
• FPGA-module1 also for VLSI design
• Integrated photonics
• Mitigate chip package interaction
• RoBA multiplier
• Reducing microfluidic (VLSI)
• Equipment design and also material design
• 3D power scaling
• Photonic transmitters beyond LED
• Application development in the areas [Like IOT, IOE, Big data, Cloud computing, Machine learning, Artificial intelligence, and also Deep learning]

Embedded Systems:

• Micro controller also for Serial port Oscilloscope
• Servo motor control
• Temperature monitoring system also using PIC18F4550
• Interfacing circuit for controlling stepper motor and also LED
• Ultrasound sensor interfacing also with Arduino
• Multiple parameter monitoring systems
• Navigation and also guidance systems
• Circuit debuggers or emulators
• Feedback and data collection systems
• Heart beat and also blood pressure monitor
• Electronic fuel injection systems
• Serial communication interfaces
• DiscreteIO (aka general purpose input/output (GPIO))
• Multimedia cards (Comfact flash, also SD cards, etc)

Current Real Time Applications

• Smart oil field management
• Locating a mobile station
• Leader follower base mobile molecular communication
• Adaptive channel diversity
• Reducing sounding overhead
• Charging time control (Wireless power transfer system)
• Distributed decision making and also control
• Sharing frequencies (OFDM also based)
• Reconfigurable farrow structure (FRM Filters)
• Stochastic communications delays (Stability and also frequency response)
• Information handling system (Secure RF)
• Passive frequency multiplier designs (K-band)
• Energy efficiency enhancement (cryptographic techniques)
• Novel power wireless broadband system

Recent Research Topics

• Wireless communications for advances on exploiting polarization
• Wireless-communications with new applications also for MEMS modular robots
• Secure wireless communication also for application of full duplex guarantees
• Mobile control and safety applications in industrial environments also for reliable wireless communication and positioning
• Arbitrary patch antenna design also for wireless communications using application of opposition based learning concepts
• Application in wireless communication also using a simple multiband parch antenna
• Applications to wireless communications performance analysis also for generalized MGF of Beckmann fading
• Low cost wireless communications applications also using grapheme flakes printed wideband elliptical dipole antenna
• Applications to wireless communications also for calculation of the incomplete MGF
• Future wireless standards using high throughput and also area efficient rotated and cyclic Q delayed constellations demapper
• Circularly polarized antenna also for compact omnidirectional
• Ultra wideband communication applications also for compact circularly polarized Archimedean spiral antenna
• LC-VCOs also using high performance switchable multiband inductor structure
• Generalization of the Doherty theory also for design of linear and efficient power amplifiers
• Wireless communications also with compressed sensing usefulness
• Generating electromagnetic vortex wave also using design of reflective phase shifting
• Wireless communications also using quad-band perforated rectangular dielectric resonator antenna
• Cooperative automated vehicle applications also using utilizing model based communication
• Synthesis of non-uniformly spaced linear antenna also for PEEC based multi objective

        We also trust that the aforesaid information is sufficient to get crisp knowledge about Wireless Communication Thesis. Feel free to contact us if you need any further information. We also appreciate your immediate attention to this research .

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Wireless communication is a process of conveying data among multiple devices without a direct wired link . In this technology, radio waves are very frequently used as a wireless communication medium. A wideband mobile wireless network offers a huge volume of multimedia information which allows communication with everyone everywhere. This page is about to present the most interesting research ideas and latest wireless communication project topics , standards and technologies!!!

In the current era of wireless communication, more mechanisms are coming up to improve the adeptness in spectrum transmission and utilization . Also, it is focused to use “everything over IP” for effortlessly interrelating varied structured networks. 

Why Wireless Communication?

On top of mobility, wireless networks provide adaptability and reliability over any kind of network for easy use . As a result, it ultimately acquires widespread familiarity in a short period. For instance , smartphones are featured with a significantly high throughput presentation.  

Similarly, infrastructure also plays a major role in wireless technology characterization. In comparison with a wireless system, the wired system setup is a more costly and time-intensive process . In the case of undesired conditions or distant situations, wireless communication suits more perfectly rather than wired communication. Now let’s see about the important characteristics of wireless interaction.

Key Features of Wireless Technologies 

• LOS or NLOS transmission
• Unlicensed free spectrum 
• Moderate coverage and mobility 
• LoS/NloS transportations
• Minimum deployment cost
• Unlicensed free spectrum
• Large data rate 
• Complete mobility 
• LOS/NLOS communications 
• Huge coverage
• Assured QoS
• LOS/NLOS communications
• Average coverage
• Assured Quality of Service
• Moderate mobility 
• LoRa communication
• Line of Sight / Non-Line of Sight communication
• Performance does not relies on snow, fog, and dust

To guarantee the standard of our research undertakings, we continuously update our skills with recent technological innovations . From this study, we are acquainted with so many interesting facts about wireless technologies with their performance factors. For example, we have given SigFox, LoRaWAN, LTE Network , LTE-M, and NB-IoT .

Performance of Latest Wireless Technologies 

• Modulation:  CSS,  Band:  Sub-GHz ISM: EU (433 MHz, 868 MHz), US (915 MHz), Asia (430 MHz),  Data Rate:  03-37.5 kbps (LoRA), 50 kps (FSK),  Range:  5 km (urban) , 15 km (rural),  MAC:  pure ALOHA,  Topology:  star of stars,  Payload size:  up to 250 B,  Proprietary aspects:  PHY layer
• Modulation:  UNB DBPSK, GFSK,  Band:  Sub-GHz ISM: EU (868 MHz), US (902 MHz),  Data Rate:  100 bps (UL), 600 bps (DL),  Range:  10 km (urban) , 50 km (rural),  MAC:  pure ALOHA,  Topology:  star,  Payload size:  12 B (UL), 8 B (DL),  Proprietary aspects:  PHY and MAC layers
• Modulation:  QPSK,  Band:  Licensed 700-900 MHz,  Data Rate:  158 kbps (UL), 106 kbps (DL),  Range:  15 km,  MAC:  FDMA / OFDMA,  Topology:  star,  Payload size:  125 B (UL), 85 B (DL),  Proprietary aspects:  Full stack
• Modulation:  16QAM,  Band:  Licensed 700-900 MHz,  Data Rate:  1 Mbps,  Range:  11 km,  MAC:  FDMA / OFDMA,  Topology:  star,  Payload size:  Unknown,  Proprietary aspects:  Full stack

Similarly, we have also listed down the recent wireless standards with their performance features. For instance, we have given IEEE 802.15.4k, IEEE 802.15.4g, Weightless-W, and Weightless-N.

Performance of Latest Wireless Standards 

• Modulation:  MR-(FSK, OFDMA, OQPSK),  Band:  ISM Sub-GHz & 2.4 GHz,  Data Rate:  4.8 kbps-800 kbps,  Range:  10 km,  MAC:  CSMA / CA,  Topology:  star, mesh, peer-to-peer,  Payload size:  2047 B,  Proprietary aspects:  Open Standard,  Deployment Model:  Private
• Modulation:  DSSS, FSK,  Band:  ISM Sub-GHz & 2.4 GHz,  Data Rate:  1.5 bps-128 kbps,  Range:  5 km (urban),  MAC:  CSMA / CA or ALOHA with PCA,  Topology:  star,  Payload size:  2047 B,  Proprietary aspects:  Open Standard,  Deployment Model:  Private
• Modulation:  UNB DBPSK,  Band:  ISM Sub-GHz EU (868 MHz), US (915 MHz),  Data Rate:  30 bps-100 kbps,  Range:  3 km (urban),  MAC:  slotted ALOHA,  Topology:  star,  Payload size:  20 B,  Proprietary aspects:  Open Standard,  Deployment Model:  Private
• Modulation:  16-QAM, BPSK, QPSK, DBPSK,  Band:  TV white spaces 470-790 MHz,  Data Rate:  1 kbps-10 mbps,  Range:  5 km (urban),  MAC:  TDMA / FDMA,  Topology:  star,  Payload size:  >10B,  Proprietary aspects:  Open Standard,  Deployment Model:  Private

In addition, our experts have listed out few main Wireless Communication Project Topics that help scholars to get a clear vision about the current research. We provide best dissertation help in wireless communication . We have supported countless research scholars.

10+ Latest Wireless Communication Project Topics

• Radio Frequency and Microwave Technologies 
• Advance RF Antenna and Propagation 
• Advance Microwaves, Microwave devices, and Components
• Multiple Cross-Layer Mac Design
• Wireless Data Communications and Computing
• Improved Equalization, Diversity, Channel Codding Techniques 
• Integration of Cognitive radio with Dynamic spectrum access 
• RF-Energy Harvesting with Massive Wireless Energy Transfer
• Full-Duplex Radio Communication and Technologies
• Wireless Heterogeneous Cellular Networks Theory 
• Massive MIMO based mmWave communication Model
• Adaptive Design, Modulation, and coding for wireless systems
• Radio Propagation and Radio channel characterization 
• Resource-Aware Allocation and load –Aware Balancing 
• MIMO based Adaptive Space-Time Processing 

Energy-efficient wireless communications

In specific, we have discussed energy-efficient Wireless Communication Project Topics which gain more importance in recent research. As matter of fact, it is deployed in various smart grid systems like meter power line observation, data acquisition, and resource demand management. In this, it can also be used in several sections of the smart grid such as SG-NAN, SG-WAN, and SG-HAN . As well as, it catches the relations among the following aspects in the radio frequency transceiver,

• Order of Modulation 
• Power Consumption
• Channel fading
• Power Amplifier 
• Distance of Transceiver 
• other Circuit Modules 

Research Ideas in Wireless Communications 

• Multi-Attribute based Vertical Handover Solution 
• Strategy for Network Switching
• Power Control in Wireless Transmission
• Integrated Cluster-based Routing Protocol 
• Topology Optimization for Directional Antenna Network

Also, we are ready to share a few more important updates about the wireless communication trends. So if you are looking for the best Wireless Communication Project Topics, you can find us as the best solution to carry over your research career.

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Wireless Communication Project Ideas

The communication method in which data transfer happens without wires is Wireless communication . Electromagnetic waves are used to establish communication among devices. With growing technologies, wireless communication incorporates advanced developments into it making wireless communication project ideas   attain popularity.  

“ Without wireless communication, almost nothing in today’s scientific world is possible.”

What are the major components of wireless communication?

The major components required for wireless communication are

• Transmitter
• Electromagnetic Signal
• Computer Devices
• Connectivity Software

The challenge of today’s world is communication which is cost-effective, highly efficient, fast, and at the same time ensuring security. So expert knowledge can only provide the necessary support to your research. We provide one of the most trusted research guidance for all wireless communication project ideas. 

How does wireless communication work?                                                  

Using transducers the information is converted into electrical signals then it is transmitted using a transmitter at one end and received using the receiver at the other end. This is the basic working principle of the wireless communication system.

A deeper understanding can provide you with a strong foundation of knowledge. Our highly experienced technical team can provide you with massive resources and required practical explanations so that everything about wireless communication becomes a piece of cake for you to understand.  

Important requirements of wireless communication

The major necessities of wireless communication are

• The larger volume of data
• Very low latency
• Huge connectivity of the device
• Higher reliability

This requires  adequate optimization, operation, mathematical models, deployment, and network design.   The condition of the network at the beginning and assumptions are also important for the communication system. Our professional guidance can provide you with a better understanding of all these.  

What are the research topics in wireless communication?

Harnessing the developments in Artificial Intelligence , the field of wireless communication is yet to see massive growth in the future. AI has the potential to revolutionize wireless communication in the following ways:

• Network devise – edge computing management, caching content
• Data transfer – MAC layer AI, Network layer AI, PHY layer AI
• Application Services – Data compression, Privacy, Security
• User Devises Handling – Federated learning, Embedded systems
• Wireless sensing – detecting and counting people, suspect detection
• Positioning – Localization using ML and DL  

How to choose the best AI algorithm?  

Choosing the correct AI algorithm is a tedious task. The following characteristics of the AI algorithm are to be studied.

• Less training error
• Easy training procedure
• Effective detection accuracy
• Efficient learning with small loss
• Minimized learning overhead
• Modifiable learning architecture
• Less Calculation time
• Learning environment
• Better training with uncertain information
• Increased learning speed

Our wireless communication project ideas are the latest and also we have huge experience in guiding research projects in wireless communication. We can provide you with all the required guidance for your research project. So you can completely rely on us for the perfect completion of your research work.

CURRENT WIRELESS COMMUNICATION PROJECT 

Here is a sample project of ours that can help you know better about us.

Project Title:  Joint Resource Allocation and Spectrum Sensing for Proficient Data Transmission in OFDM-CRN with 5G   

Network Elements 

• Primary Base Station (PBS)
• Primary Users (PUs)
• Secondary Users (SUs)
• Fusion center (FC) with MIMO
• Spectrum Agent (SA)  

PROCESSES INVOLVED 

Network Clustering  – Balanced K-means Clustering divides the network into equal-sized clusters. The SU and FC distance aids CH selection. Two-stage Multi Slot Channel Assignment (TMSCA) schedules channel assignment.

• In SU, Energy Spectral Density-based Energy Detection (ESD-ED) method senses channel.
• Channel State Weighted Graph (CSWG) in FC constructs SUs sensing report graph.
• Allocation of Resources 
• Efficient Karush-Kuhn-Tucker (EKKT) conditions consider Channel assignment, power, and Constraints of interference.
• Quadrature Phase Shift Keying performs modulation.  

Performance Evaluation

The project excels the other existing systems in the following execution standards.

• Transmission power
• Network utility
• Transmission rate

Thus it shows our experience in bringing out the best results in wireless communication research.  You can explore all our ongoing research projects in wireless communication . We have guided more than 100 successful researchers in the field. So we assure to provide you with the best, world-class research guidance in all the following research topics of wireless communication.

• A competent method for Correlation Analysis (CA) and Link Gain Prediction (LGP) for Optical Wireless Scattering Communication Over Broad Spectra practice
• An innovative mechanism for Energy Efficient Wireless Communication intended for IoT Enabled Greenhouses
• A novel technology for Adaptively Biased OFDM designed for IM/DD-Aided Optical Wireless Communication Systems (WCSs)
• On the use of Gb/s Underwater Wireless Optical Communications by series-connected GaN Micro-LED Arrays system
• An effectual function for Energy Efficiency Optimization and Resource Allocation of Cross-Layer Broadband Wireless Communication System
• The novel technique for Artificial intelligence-empowered resource management intended for future wireless communications
• An effectual function for Achieve High Data Rate Via optical Modem In Under Water Wireless Communication (UWWC)
• An efficient mechanism for Capitalizing Backscatter-Aided Hybrid Relay Communications with Wireless Energy Harvesting (WEH)
• An inventive method for Adaptive Virtual Waveform Design aimed at Millimeter-Wave Joint Communication Radar system
• A Novel Comprehensive Study based on Millimeter Wave Communications intended for Fifth-Generation Wireless Networks
• Competent method for Local Information Sharing System With Wireless Device-to-Device (D2D) Communications
• A novel three-dimensional Non-Stationary Wideband Tunnel Channel Models used for 5G High-Speed Train Wireless Communications
• The fresh mechanism for research Survey based on Electromagnetic Risk Assessment and Evaluation Mechanism intended for Future WCSs
• A competent method for Correlation-Based on LTI Channel Estimation intended for Multi-Wavelength Optical Scattering NLOS Communication
• An effective performance for Dynamic Communication QoS Design used for Real-Time Wireless Control Systems (WCSs)
• The new-fangled method for Secure Wireless Powered Cooperative Communication Networks With Finite Energy Storage practice
• Modern function for Effective Capacity Based on Power Allocation intended for Coexistence of an Integrated Radar and Communication System and a Commercial Communication System (CCS)
• Innovative research function for Renewed Triple-Band Antenna intended for Wireless Communication
• An effective mechanism for Terahertz Wireless Communication Link used by a Superheterodyne Method

Feel free to come up with any related and novel research wireless communication project ideas. We are here to provide you with all the requirements and give a remarkable shape to your idea. You can totally depend on us for your research. Commitment and customer satisfaction are our topmost priorities.

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50+ Wireless Communication Based Projects

• July 21, 2024
• By Administrator

“Wireless Communication” is the way of communication in which the transfer of information takes place between two or more points that are not connected by an electrical conductor. The most common wireless technologies use electromagnetic wireless telecommunications, such as radio.

Here, we are publishing the list of various wireless communication project ideas for engineering students. These are very interesting to learn and also helps in getting good growth in career.

Wireless Communication Projects Ideas:

• Automated Intelligent Traffic Control System using Zigbee : This project replaces the conventional timer based traffic control system by implementing wireless sensor networks using Zigbee technology. Wireless sensor networks employed at various junctions senses the density of vehicles and transfers that data to main controller through Zigbee module. At receiver end, Zigbee receiver sends the control signals to the traffic lights after analyzing and processing the received data.
• Remote Monitoring and Control System for DC Motor using Zigbee Protocol : This project aims to design a remote monitoring and control system for DC motor using wireless Zigbee technology. Various parameters like voltage, current, speed and temperature of DC motor are acquired various sensor is transferred to the central controller via Zigbee module. This project also facilitates the speed control of motor from remote location through employed motor driver unit.
• Remote Monitoring System for Three-Phase Distribution Transformer using Zigbee : This project helps to monitor and control the three phase distribution transformer in order to clear the faults early in transformer. In this, transformer parameter like voltage, current, temperature of the oil, oil level, etc are monitored remotely via Zigbee module and also switching operation of transformer remotely based on these parameters violation can be performed.
• RF Based Stepper Motor Control System : In this project, RF communication technology is implemented to control the speed of stepper motor. RF transmitter module with control unit sends the control commands to the receiver module where stepper motor is connected to it. Upon receiving these signals, stepper motor speed is controlled.
• Wireless Patient Body Monitoring System using Zigbee : This project implements a wireless sensor network for facilitating remote monitoring of patients upon Zigbee network. Various health parameters like body temperature, ECG, heartbeat, etc are continuously monitored by various sensors and collected data is transferred to the central monitoring station or to the doctor via Zigbee network. At receiving end LabVIEW GUI displays all these parameters graphically on PC.
• RF based War Field Spying Robot with Night Vision Wireless Camera : In this project, RF based spy robot is designed with night vision capability camera for spying purpose in war fields. At transmitting end, push button pressing generates command signal which is then transferred to the receiving end to control the direction of the robot like forward, backward, left and right directions.
• Wireless Electronic Display Board using GSM Technology : This project builds an innovative system to update the information on electronic displays using GSM technology. GSM module attached to the electronic display controller automatically receives and updates the information whenever user sends the SMS (of information to be displayed) from his/her mobile phone.
• Wireless Voice Controlled Fire Extinguisher Robot using Zigbee : The main aim of this project is to build a fire extinguishing robotic vehicle with Zigbee wireless technology. The speech recognition module at Zigbee transmitter circuit, reads the speech signals and transfer to the receiving end where Zigbee receiver circuit with robot controller is connected.
• Wireless Energy Meter Reading with Power ON/OFF Circuit using Zigbee : This design measures the electricity consumption and sends the billing information to electricity utility department through Zigbee module and also to the user via GSM module. This system also facilitates the utility companies to terminate the power if user fails to pay the bill.
• Wireless Power Transfer System using Magnetic Resonant Coupling : The objective of this project is to transfer the electricity from one circuit to the other without using wires in between them. This can be implemented where there is no chance for running electrical lines. This method uses magnetic resonant coupling method for efficient transfer of power.
• Two-Way Wireless Data Messaging System in Rural Areas using Zigbee : This project provides the two-way message communication system for rural areas where there is no signals from mobile service providers and also for applications which require high encryption and decryption of data. Zigbee transceiver at both transmitting and receiving end enables the transferring of messages between sender and receiver.
• Zigbee Based Weather Monitoring System : This project builds weather monitoring station to continuously monitor and record the weather data without any human intervention using Zigbee technology. Various parameters data like temperature, rain fall, humidity, wind speed and direction, etc acquired by the main controller is send to the remote computer via Zigbee module. At the receiving end, Zigbee receiver along with PC, receive, monitor and records the data.
• Monitoring System for Induction Motors Based on Zigbee Protocol : The main aim of this project is to switch, protect and monitor the AC induction motor wirelessly using Zigbee technology. Induction motor parameter like voltage, current, temperature, speed, etc, are transferred to the remote computer through Zigbee module. Then user can monitor and switch the motor if any parameter violates its limits. This system also facilitates over loading, over current, overvoltage and over temperature protection systems.
• Wireless Home Automation System Using Zigbee : This project implements a high efficient home automation system to have remote control operation over homes using Zigbee technology. Sensors placed in the home are connected to the central controller which automatically collects the various parameters like temperature, lighting, gas leak detection, etc. Upon set conditions this system automatically controls the home appliances. Zigbee receiver at remote control side can also has the access to operate and monitor the home.
• Robotic Cable Inspection System Using Microcontroller and GPS Tracker : The objective of this project is to implement a mobile robot that can detect or inspect the faults occurred in underground cables. This robot can travel through the underground tunnels and inspects the obstacles, fire accidents, presence of harmful gases, supply failures, etc of the cable. This fault location detected by GPS module is transferred to the main controller through the communication module.
• Zigbee Based Remote Controlled Automatic Street Light System : This system facilitates the remote control and monitoring of street lights by using Zigbee technology. PIR and LDR sensors at the street lights detect the motion or vehicle detection and light intensity. The main controller collects the sensor data transfers to the central monitoring area through Zigbee. According the sensors data, central monitoring station sends the automatic decisions like Dimming/ ON/ OFF.
• Electronic Voting Machine Using Zigbee : In this project, a high efficient wireless electronic voting machine is implemented using Zigbee technology. Fingerprint module attached to the main controller takes the voter identity and compares with data stored in database. Buttons provided to this controller, accepts the respective vote from voter. Then this data will be sent to the remote computer via Zigbee network.
• Touch Screen and Zigbee Based Wireless Communication Assistant : This project aims to build a multi-language communication system especially for dumb/ill people. Symbols and images based touch screen provides the user to enter their requirement. This data is further transferred to central computer via Zigbee network so that people get assisted quickly and easily.
• RFID Based Library Management System : This project overcomes the disadvantages of barcode system by inserting RFID tags for every book in order to reduce the theft of books. RFID readers are attached at entrance and exit doors which can automatically detect the RFID tags if any person tries to steal the books. Library books management is also very efficient with this system.
• Oil Well Monitoring and Control Based on Wireless Sensor Networks : The main aim of this project is to build oil well health monitoring system by monitoring and supervising various individual wireless sensor network based controllers located at different oil wells from single location. Each Zigbee controller with level, temperature and gas sensors remotely monitored from central location via Zigbee network.
• Wireless Fingerprint Based College Attendance System Using Zigbee Technology : This project eliminates the manual attendance system by implementing fingerprint based attendance using Zigbee technology. Fingerprint module identifies the user and sends the information to remote PC through Zigbee module. At the receiver end, this data is automatically uploaded into the excel files for future record.
• Intelligent Accident Identification System Using GPS and GSM : The objective of this project is to intimate the accident location of vehicle to the emergency services like ambulance through SMS by identifying the location with use of GPS. MEMS based controller with GSM and GPS modules in the vehicles generates SMS whenever vehicle met with an accident.
• Dish Positioning Control by DC Motor Using IR Remote Control : The main aim of this project is to adjust the position of dish remotely using IR transmitter and receiver modules. In this, a DC motor is attached at the base of dish along with IR receiver module. Remote IR transmitter sends the control signals to the IR receiver so that motor and hence dish position is controlled.
• RFID Based Automated Toll Plaza System : The objective of this project is to avoid long queues at toll gates by automating toll collecting system using RFID technology. This system provides RFID cards for each vehicle so that when the vehicle enters into toll gate, it automatically reads the vehicle data and deducts the amount from their cards.
• Forest Fire Detection Using Zigbee Wireless Sensor Networks : In this project forest fires are detected remotely from solar based controller located in the forest through Zigbee wireless network. Various sensors like smoke sensor, temperature sensor, pressure sensor and rain sensor are connected to solar powered controller along with Zigbee transceiver. At the central location these parameters are monitored remotely.
• Wireless Auto Power Trip during Gas Leakage : The main idea of this project is to reduce the chances of getting fire with electricity in the event of gas leakage. This project uses RF module to transfer the information of gas leakage to the electricity tripping circuit and alarming circuit so that electricity is interrupted as well as people get alerted.
• RF Based Bus Recognition System for Visually Impaired Persons : This project implements a bus recognition system using RF module for the visually impaired persons. When the person enters the bus number on Braille keypad, this system automatically sends the signals to corresponding bus so that RF signal transmission is activated in the bus. When the bus enters into station, RF receiver based module at person gets vibrated and starts alarming.
• RFID Based Automatic Vehicle Parking System : This project provides the RFID tag for every registered vehicle to build automated parking system. When the vehicle enters into the parking area, RFID reader reads the RFID tag, automatically deducts the amount from the card, allots the particular slot and then opens the entry gate with use of DC motor.
• Automation of Ticket Vending Machine using ARM Processer : The objective of this project is to demonstrate the automatic ticket vending machine and bus management using RFID, GPS, GSM and Zigbee technologies. The design implements arm processor which can provide the ticket automatically once the user is authenticated by RFID and allowing him/her to enter destination place on touch pad.
• A Bluetooth Tele Health, Household Security and Industry Safety Realization by Android Smartphone : This project demonstrates how the wireless communication will be helpful in industrial safety, household security and tele health systems. In this, Bluetooth communication is used in between the embedded unit and android smart phones. Various sensors like temperature, gas and pulse sensors are connected to embedded unit which sends the data to smart phone remotely via Bluetooth module.
• SCADA Based Monitoring and Controlling Using ZIGBEE : This project demonstrates the real time implementation of SCADA system for small applications using Zigbee technology. In this, data acquisition and control is performed through set of sensors and microcontroller unit while remote monitoring and control is performed through Zigbee network.
• Wireless Data logger Using Zigbee : The main aim of this project is to develop microcontroller based data logger system for temperature monitoring using Zigbee. The ADC with temperature sensor continuously measures the temperature. This sensor data will be acquired by the microcontroller unit further transmitted to remote PC through Zigbee module. Therefore, the data is logged as well as monitored even from remote locations. This will be useful for analyzing temperature variation over a period.
• Real Time Traffic Monitoring System and Driver Assistance using Zigbee and GPS : This project implements a smart vehicle system which can provide various traffic conditions for assisting driver. Zigbee traffic modules placed at different junctions sends the traffic data to the drivers so that they can choose an alternate path in the event of huge traffic. GPS guides the driver along the desired path.
• Design of Indoor Pipeline Inspection Robot using Zigbee : In this project, indoor pipeline inspection robot is designed by using Zigbee wireless communication. A CMOS camera, temperature sensor, accelerometer and Zigbee module are used in this robotic body in order to have remote pipeline inspection.
• Voice Recognition Based Wireless Home Appliances Control using Zigbee : This system is mainly designed for elderly persons as well as disabled persons who cannot go and operate the appliances. This project allows the user to give voice commands in order to have control on various home appliances. Zigbee communication facilitates the wireless communication between user device and appliance control device.
• Self-Balancing Robot and Control via RF : This project implements the two wheel self balancing robot which can balance on its own and can travel over different trains as compared to four wheel robot. In this, the balanced robot is controlled wirelessly using RF transmitter while RF receiver in robot module receives the commands and controls the motor directions.
• Flood Intimation in Railways using Zigbee And GSM : This project automatically detects the floods that are flowing across the railway tracks in order to avoid the accidents. A portable microcontroller and sensor based controller with Zigbee and GSM modules sends the flood intimation to remote computer as well as to the train drive mobile whenever it detects the flood water on tracks.
• Bluetooth and Android Based Household Appliance Control : This is a smart way of controlling the household appliances using Android mobile application via Bluetooth communication. The Bluetooth module in the main controller receives the user commands and transfers to the controller to which all the appliances are connected.
• Development of a Low-Cost ZIGBEE and GSM Based Conductor Temperature and Sag Monitoring System : The main objective of this project is to measure temperature and sag of high voltage overhead conductor directly without disturbing the power supply through it. These parameters are continuously monitored by Zigbee module. And also if these parameters limits are exceeded, SMS will be sent to the authorized persons through GSM module.
• Wireless Control of Single Phase Powered 3-Phase Induction Motor Using GSM : In this project, the speed of a three phase motor is controlled by implementing V/F control method. This method is implemented in PIC microcontroller which delivers the PWM signals to the IGBT unit after receiving commands from remote mobile via GSM module. This module also sends the acknowledgement of speed to the remote mobile.
• Monitoring Wind Turbine using Wi-Fi Network for Reliable Communication : This project aims to build health monitoring system of wind turbine in order to avoid the mechanical faults that takes place in turbine. The MEMS sensor is attached with this system which continuously monitors the vibrations and sends the corresponding signal to the microcontroller. The vibration signals are calibrated for no load, on load and abnormal conditions. The analyzed output is sent to the Zigbee transmitter and further to Zigbee receiver for the purpose remote monitoring.
• Wireless Solar Tracking System using Arm Controller : The idea of this project is to implement both solar tracking and solar monitoring system for solar power homes or industries. This project controls the solar panel direction towards the sun depends on the light intensity. Also all the parameters related to solar panel and battery voltage are transferred to the monitoring area through Zigbee wireless communication.
• Brain Computer Interface System for Mind Controlled Robot using Bluetooth : The main aim of this project is to generate the control commands of a robotic vehicle by translating different patterns of brain activity. In this brainwave headset and PC are interlinked with Bluetooth whereas the communication between PC and robotic vehicle is established by Zigbee network. According to the patterns generated by the brain, robot movements are controlled.
• Secure Data Transmission using Blowfish Algorithm : In this project, an embedded hardware for secured data transmission is implemented by using Blowfish algorithm. This data encryption and decryption algorithm is implemented in ATmege microcontroller while the data transmission is carried by Zigbee technology.
• Wireless Control of Pick and Place Robot Implementation : This project aims to build a pick and place robotic arm which can be controlled through android mobile using Bluetooth technology. This robot consists of wireless camera by which it facilitates to remote monitoring of the objects. Bluetooth module in the robot receives the command signals sent from the android mobile so that robot can be moved in different directions.
• Design of RF Based Speed Control System for Vehicles : In this project, a smart display controller for vehicles is implemented which can capable of monitoring various speed zones automatically by using RFID tags. In place of signboards, RFID system enables the vehicles to reduce its speed by giving indication of zones.
• Automated Alarm Based Railway Gate Crossing Based on GPS and GSM : This project implements a new railway crossing annunciation (or warning) system using GSM and GPS. This design consists of train section and control section. The train section with GPS and GSM modules determines the location of the train and sends the location data to control section. The control section with attached GSM and alarm circuit receives the messages and correspondingly generates the alarm at railway crossing gate.
• Design of Hand-Glove Controlled Wheel Chair using Zigbee : This project aims to design a cost-effective and easily controllable wheelchair for the disabled persons. In this, MEMS sensors are attached to the hand gloves which give the hand movement signals to the microcontroller. The microcontroller output signals are transferred to the Zigbee transmitter and further to Zigbee receiver located in wheelchair. Upon receiving these signals, microcontroller unit in the wheelchair controls stepper motor.
• RFID and GSM Based ATM Money Transfer Prototype System : This project demonstrates the working of an Automatic Teller Machine (ATM) in banking system. In this project a secured and authenticated transaction is achieved through the use of RFID and GSM technologies. ARM processor acts as a central processor unit which authenticates the person by RFID tags and generates SMS after successful transaction.
• Water Purifier Controller System in Zigbee Technology : The objective of this system is to monitor and control the water purification system using Zigbee technology. This project tasks include control of the temperature of cold water in cooling system, water level measurement and water purity indication.

Refer the following pages also:

• DTMF Projects
• RFID Projects
• Solar Energy Projects

5 Responses

Very interesting projects where can we get parts for this projects do u provide

It’s really nice

These Wireless Communication Projects Ideas are more interesting and helpful for us.

What a nice idea and great projects. Hope this projects works very well. Carry on.

So sorry, no comment but a request! I’d have liked to see a simple, full-frequency audio transmitter to replace the often cumbersome and inadequate speaker cables!

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A service-differentiated real-time communication scheme for wireless sensor networks

Supporting end-to-end real-time communication is important for wireless sensor networks (WSNs) to acomplish the collaborative sensing tasks with specific timing constraints. However, without considering the unique constraints for WSNs, many existing real-time communication protocols prove to be infeasible for low-cost WSNs. In this paper, we propose a novel real-time communication scheme (RCS) to provide service-differentiated soft real-time guarantees for end-to-end communication in WSNs. We use hop-based geographic grouping to enable location awareness for sensor nodes with extremely low control overhead.We use dynamic forwarding with load-balanced receiver contention to provide a light-weight, yet efficient, routing technique, which can be easily adapted for duty cycle design. We use polling contention period based real-time MAC support to improve the service-differentiation granularity with better bandwidth utilization. The performance evaluation shows that our scheme can achieve low end-to-end latency, high on-time delivery ratio, fine services-differentiation granularity with load-balance for real-time traffic in unsynchronized low-cost WSNs.

Byrav Ramamurthy

Professor & pi.

My research areas include optical and wireless networks, peer-to-peer networks for multimedia streaming, network security and telecommunications. My research work is supported by the U.S. National Science Foundation, U.S. Department of Energy, U.S. Department of Agriculture, NASA, AT&T Corporation, Agilent Tech., Ciena, HP and OPNET Inc.

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• Wireless Communication Projects

Wireless communication simply means a data communication without the use of wires. NevonProjects provides the widest list of wireless project ideas to help in student research as well as studies. We provide wireless communication projects running on various wireless technologies including IR, RF, Bluetooth, DTMF, Zigbee and more. Our wireless communication projects are designed to help engineering students in their wireless project research and development. The lists consists of wireless communication projects for engineering students to implement electronics communication systems with ease. Our self learning wireless electronics project kits are development driven educational kits for researchers. Browse through our collection of wireless project ideas and find your desired project kit :

• Pesticide Sprayer Spider Robot with Grass Cutter
• Car Safety System With Airbag Notification
• Induction Motor Controller and Protection System
• DIY Bluetooth Gamepad for Android Gaming
• Path Planner Robot for Indoor Positioning
• Car Accident & Alcohol Detector & Recorder Blackbox
• IOT Weather Reporting System using Adruino and Ras Pi
• Lifi Data Transfer System
• Weather Imaging CubeSat with Telemetry Transmission
• Solar SeaWeather and Pollution Transmitter Buoy
• Coin Operated Water ATM with Bottle Dispenser
• Earthquake Monitor and Alerting System
• 8 Leg Spider Robot by Theo Jansen Linkage
• IOT IV Bag Monitoring and Alert System
• Goods Transport Stair Climber Robot
• Gesture Control Bicycle Indicator Gloves
• Wireless Master Joystick Controller for Robotics
• IOT Water Pollution Monitor RC Boat
• Gesture Control Bluetooth Speaker
• LIDAR Micro Done With Proximity Sensing
• Contactless IOT Doorbell
• IOT Smart Parking Using RFID
• Wall Climbing Glass Cleaner Robot
• IOT Syringe Infusion Pump
• Programmable Robotic Arm Using Arduino
• Voice controlled wheelchair for physically disabled
• Medical Supplies Delivery Drone
• Fishing Drone
• Solar Floor Cleaner Robot
• Arduino Alcohol Sense Engine Lock
• IOT Dog Daycare Robot
• 360° Aerial Surveillance UAV With IOT Camera
• 360° Filmmaking Drone For 4K HD Video
• Fire Extinguisher & Fire Fighting Drone
• IOT Garbage Segregator & Bin Level Indicator
• IOT Temperature & Mask Scan Entry System
• IOT Covid Patient Health Monitor in Quarantine
• Autonomous Theft Proof Delivery Robot For Food & Ecommerce
• Social Distancing & Mask Monitor Drone
• IOT based Manhole Detection and Monitoring System
• Water Landing and Take-off Drone
• 2WD Vehicle Drone Air + Land Surveillance
• Public Property Violation and Anti Littering Drone
• Raspberry Pi based Android Controlled Surveillance Robot
• Farm Protector Drone for using Arduino
• IOT based Smart Energy Meter Monitoring with Theft Detection
• Zigbee based Wireless Home Security System
• Smart Home Automation System with Light Dimmer
• Solar Powered Water Trash Collector
• Water Pollution Monitoring RC Boat
• Multi-purpose Sea Surveillance + Search & Rescue RC Boat
• DIY 2G Android Phone with Gesture Interface
• Intelligent Surveillance and Night Patrolling Drone
• IOT based Intelligent Gas Leakage Detector Using Arduino
• Garbage Collection Robot Using Wireless Communication Technology
• Wireless Black Box for Cars using Sensors & GPS module
• Quadriplegics Wheelchair Control by Head Motion using Accelerometer
• Advanced Footstep Power Generation System using RFID for Charging
• Portable Health Checker Device with Blood Oxygen Monitor Project
• Smart Road Safety and Vehicle Accident Prevention System for Mountain roads
• IOT based Smart Agriculture Monitoring System Project
• IOT Based Automatic Vehicle Accident Detection and Rescue System
• RFID Based Petrol Pump Automation System
• Greenhouse Monitoring and Control System using IOT Project
• IOT Based Heart Monitoring System Using ECG
• Smart Stand-up wheelchair using Raspberry Pi & RF
• Raspberry Pi based Weather Reporting Over IOT
• IOT Based Monitoring System for Comatose Patients
• Motion Controlled Pick & Place Obstacle Avoider Robot
• IOT Early Flood Detection & Avoidance
• IOT Garbage Monitoring Using Raspberry Pi
• IOT Circuit Breaker Project
• Auto Billing Mall Shopping Cart 8051
• IOT Flood Monitoring & Alerting System
• Android Powered Juice Vending Machine
• Remote Control Plant Watering System Using 8051
• Women Safety Night Patrolling Robot
• Multicontroller based Wheelchair Safety using Android, Touch, Speech & Gesture Control
• Accident Avoiding System with Crash Detection and GPS Notification
• Plant Soil Moisture & Ph Sensing Alarm Using 8051
• Smart Crop Protection System From Animals PIC
• Smart E Glasses For Voltage Measurement
• Wireless Humanoid Bionic Arm on Robotic Vehicle
• IOT Paralysis Patient Health Care Project
• DTMF & RF Dual Controller Based Robot
• Fire Fighter Robot with Fire Resistant Body
• Portable Bluetooth Printer Project
• Wifi Based Secure Wireless Communication Using RSA
• RFID Based Smart Master Card For Bus Train Metro Ticketing
• Multi Robot Coordination For Swarm Robotics
• Smart Floor Cleaner Robot Using Android
• Motion Based Maze Solver Using Android
• Wearable Health Monitoring System Project
• IOT Color Based Product Sorting Machine Project
• Zigbee Based Gas Fire Detection System
• Wireless Doorbell Calling System
• Womens Safety Device With GPS Tracking & Alerts
• IOT Asset tracking System
• Induction Motor Speed & Direction Controller
• IR Wireless Underwater Communication System
• Raspberry Pi Wheelchair With Safety System
• Raspberry Pi Speaking Bus Stop Reminder
• IOT Irrigation Monitoring & Controller System
• Zigbee Based Room Temperature Controller Project
• Automatic BMI Calculator Using Load Cell & Height Sensing
• Induction Motor Speed Controller Project
• Joystick Controlled Steering Mechanism Vehicle
• Robotic Vehicle Controlled By Hand Gesture Using PIC
• Advanced Wireless Power Transfer System
• Automatic Railway Train Safety System
• 3d Space Wireless Power Transferring Project
• Automated Paralysis Patient Healthcare System Project
• Advanced Footstep Power Generation System
• Coin Based Water Dispenser System
• Rough Terrain Beetle Robot
• Patient Health Check Using Wireless Health Monitor
• Wireless Surveillance Robot Controlled by PC
• Wireless Red Signal Alerting For Trains
• Wireless PC Communication System
• Bus & Truck Drunk Driving Alert Using PIC
• Combustible Gas Detection With GSM Alert Using PIC
• Factory Worker Alcohol Detector With Automatic Machine Shutdown
• RFID Attendance System With SMS Notification
• Car Overspeeding Detection Project
• Supervisory Controlling Plus Data Acquisition For Remote Industry
• Remote Controlled Automobile Using Rf
• Automating Homes Using RF
• Motion Based Message Conveyer For Paralytic/Disabled People
• DC Motor Speed Control By Android
• IOT Theft Detection Using Raspberry Pi
• RF Based Secure Door Opener System
• Load Control System Using DTMF
• DTMF Cell Phone Based Door Opener
• Remote Vehicle Control Through Cell Phone
• Dialled Telephone Number Display On 7 Segment
• Digitally Controlled Home Automation Project
• Android Controlled Wildlife Observation Robot
• Android Controlled Notice Board Project
• Home Appliance Control Using Android Application Project
• GPS + GSM Based Advanced Vehicle Tracking System Project
• Accident Identification and alerting project
• Rf Controlled Spy Robot With Night Vision Camera
• GSM based Industry Protection System
• Gsm Based Weather Reporting (Temperature/Light/Humidity)
• GSM Stepper Motor Speed & Direction Controller
• CNG/LPG Gas Accident Prevention With Gsm Alert
• Gsm Based Door Unlocker system
• Remote Controlled Robotic Arm Using Rf
• Android Controlled Robotic Arm
• Hand Motion Controlled Robotic Arm
• Hand Motion Controlled Robotic Vehicle
• SMS Controlled Railway Level Gate Control With Programmable Numbers
• Remote Controlled Pick & Place Robotic Vehicle
• Robotic Vehicle With Metal Detection Project
• Android Home Automation Using PIC
• RF Based Night Vision Spy Robot Using PIC
• Vehicle Theft Alert & Engine Lock System Using PIC
• TV Remote Controlled Robotic Vehicle Project
• Robot Controlled By Android Application
• IOT Weather Reporting System
• IOT Air & Sound Pollution Monitoring System
• Energy Meter Monitoring Over IOT
• IOT Based Person/Wheelchair Fall Detection
• IOT Patient Health Monitoring Project
• IOT Heart Attack Detection & Heart Rate Monitor
• IOT Based Toll Booth Manager System
• Prepaid Electricity Billing Meter
• Wildlife Observation Robot Using Rf
• Flammable Gas & Fire Accident Prevention Project
• Workplace Alcohol Detector With Instant Reporting
• DC Motor Speed Control Using GSM

Need Custom Made Wireless Comm Project / System ?

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• Mini Projects
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• ARM Cortex & ARM 7 Projects
• Sensor Based Projects
• All Microcontroller Projects
• GSM Based Projects
• GPS Based Projects
• Solar Projects
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