Wireless Sensor Networks Projects for CSE
2023-2024 Wireless Sensor Networks based Projects
Technology development and socio-economic transformation have increased the demand for 5G cellular networks. They are expected to send information quickly and support many use cases emerging from a variety of applications. One of the use cases on the 5G network is the massive MTC (Machine Type Communication), wherein wireless sensor network (WSN) is a typical application. Challenges faced by a 5G cellular network are how to model an architecture/topology to support WSN and to solve energy consumption efficiency problem in WSN. So, to overcome these challenges, a HAP system integrated with WSN which uses Low Energy Adaptive Hierarchy routing protocol is implemented.Abstract: This paper aims to describe a novel smart textile that uses a single-mode hetero-core optical fiber sensor for monitoring heartbeat and respiration. The smart textile was designed by weaving hetero-core optical fibers together with the wool fabric. This novel textile that can detect variations in shapes can be incorporated into clothes. Such clothes can offer comfort to the wearer. To simultaneously monitor heartbeat and respiration, the proposed textile is sewn on to the clothes to be able to sense minute load changes produced by chest movements. The vital signs, which were calculated from the heartbeat and respiration frequency of a healthy adult, while sitting, were in agreement with those verified using commercial monitoring devices. In addition, to confirm the capability of monitoring vital signs, seven monitoring trials were performed in which the subjects were asked to wear and take off the smart cloth. The vital signs rates were successfully extracted within the four beats per minute error by the fiber optic sensor system.The proposed smart textile in clothes can monitor vital signs in daily life activities, such as sitting and standing.
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Latest 2024 Wireless Sensor Networks Projects
1.Wearable Sensors for Human Activity Monitoring
2.Towards the Implementation of IoT for Environmental Condition Monitoring in Homes
3.Technologies for Printing Sensors and Electronics Over Large Flexible Substrates
4.On the Performance of the Intel SR300 Depth Camera: Metrological and Critical Characterization
5.Energy-Aware Approaches for Energy Harvesting Powered Wireless Sensor Nodes
6.Low-Cost Turbidity Sensor for Low-Power Wireless Monitoring of Fresh-Water Courses
7.BSN-Care: A Secure IoT-Based Modern Healthcare System Using Body Sensor Network
8.AutoDietary: A Wearable Acoustic Sensor System for Food Intake Recognition in Daily Life
9.A Smart Power Meter to Monitor Energy Flow in Smart Grids: The Role of Advanced Sensing and IoT in the Electric Grid of the Future
10.SmartPDR: Smartphone-Based Pedestrian Dead Reckoning for Indoor Localization
2023-2024 Wireless Sensor Networks Projects for ECE
1.Design of a novel routing architecture for harsh environment monitoring in heterogeneous WSN
2.Design of a novel routing architecture for harsh environment monitoring in heterogeneous WSN
3.Technologies for Printing Sensors and Electronics Over Large Flexible Substrates: A Review
4.On the Performance of the Intel SR300 Depth Camera: Metrological and Critical Characterization
5.Towards the Implementation of IoT for Environmental Condition Monitoring in Homes
6.Magnetic sensors and their applications
7.Software-Defined Industrial Internet of Things in the Context of Industry 4.0
8.Energy-Aware Approaches for Energy Harvesting Powered Wireless Sensor Nodes
9.BSN-Care: A Secure IoT-Based Modern Healthcare System Using Body Sensor Network
10.Wearable Flexible Sensors: A Review
11Low-Cost Turbidity Sensor for Low-Power Wireless Monitoring of Fresh-Water Courses
12.AutoDietary: A Wearable Acoustic Sensor System for Food Intake Recognition in Daily Life
13A Green Routing Algorithm for IoT-Enabled Software Defined Wireless Sensor Network
14.SmartPDR: Smartphone-Based Pedestrian Dead Reckoning for Indoor Localization
15.Design and Fabrication of Soft Artificial Skin Using Embedded Microchannels and Liquid Conductors
16.Overview of automotive sensors
17.A Survey on Activity Detection and Classification Using Wearable Sensors
18.An IoT Cloud System for Traffic Monitoring and Vehicular Accidents Prevention Based on Mobile Sensor Data Processing
19.Fault Diagnosis Based on Weighted Extreme Learning Machine With Wavelet Packet Decomposition and KPCA
20.Thermoelectric Energy Harvesting of Human Body Heat for Wearable Sensors
21.From Fall Detection to Fall Prevention: A Generic Classification of Fall-Related Systems
22.Fiber-Optic Sensors Based on Surface Plasmon Resonance: A Comprehensive Review
23.Flexible Tactile Sensors Using Screen-Printed P(VDF-TrFE) and MWCNT/PDMS Composites
24.Tactile Sensors for Friction Estimation and Incipient Slip Detection—Toward Dexterous Robotic Manipulation: A Review
25.State-of-the-Art in Force and Tactile Sensing for Minimally Invasive Surgery
26.A High Reliability Wearable Device for Elderly Fall Detection
27.MEMS-Based Acetone Vapor Sensor for Non-Invasive Screening of Diabetes
28.IoT-OAS: An OAuth-Based Authorization Service Architecture for Secure Services in IoT Scenarios
29.Evaluating and Improving the Depth Accuracy of Kinect for Windows v2
30.Screen Printed Thick Film Reference Electrodes for Electrochemical Sensing
Projects focus to present the integration of Wireless Sensor Networks (WSN), new generation networks or 5G, TCP / IP (IPv6) protocols with the Internet of Things (IoT) that aims to exchange information, applying security, QoS (Quality of Service) and configuration, these three aspects are the problems in the construction of a network in which confidentiality, integrity, availability, authentication, reconfiguration of topology, improvement, high quality of service, addressing, infrastructure, Network and node construction, for M2M (Machine to Machine) communication or end to end. Because 5G cellular networks
The WSN is built of "nodes" – from a few to several hundreds or even thousands, where each node is connected to one (or sometimes several) sensors. Each such sensor network node has typically several parts: a radio transceiver with an internal antenna or connection to an external antenna, a microcontroller, an electronic circuit for interfacing with the sensors and an energy source, usually a battery or an embedded form of energy harvesting.
It is a decentralised type of wireless network.The network is ad hoc because it does not rely on a pre-existing infrastructure, such as routers in wired networks or access points in managed (infrastructure) wireless networks.
Wireless sensor network (WSN) is an emerging class of systems made possible by cheap hardware, advanced programming tools, complex algorithms, long lasting power sources and energy efficient radio interfaces.
2023-2024 Wireless Sensor Networks Based Projects
Wireless Sensor Networks Projects for CSE
