ABOUT IEEE IOT PROJECT
IEEE Project Centre is a leading provider of innovative and cutting-edge solutions in the field of Internet of Things (IoT). We specialize in providing high quality, cost effective services for our customers. Our team consists of experienced professionals who are passionate about delivering world class products and services to meet customer needs. We offer comprehensive range of IoT projects ranging from basic sensor networks to complex distributed systems that can be used for various applications such as home automation, industrial control, medical monitoring etc.
We provide end-to-end support for all our projects including hardware design & development, software engineering & integration, system testing & validation and deployment assistance. All our projects are designed using latest technologies like Bluetooth Low Energy (BLE), Zigbee/Zwave protocols etc., which ensures maximum efficiency with minimum power consumption.
At IEEE Project Centre we have successfully completed several IOT Projects during 2013 – 2014 period covering different domains such as healthcare, agriculture, smart cities etc.. Some examples include an automated irrigation system based on soil moisture sensors; a remote patient monitoring system using wearable devices; a real time air pollution monitoring network; an intelligent traffic management solution etc..
In addition to these projects we also provided consultancy services related to IOT technology selection and implementation strategies for many organizations across India. Our commitment towards excellence has enabled us to become one of the most trusted names when it comes to reliable IOT Solutions Provider in India today. With years of experience under our belt along with highly skilled technical experts at hand we strive hard every day so that you get best possible results out your investment into IOT Technology Solutions!
IEEE IOT PROJECT LIST 2013-2014
SNO | Projects List |
1 | A CYBER-PHYSICAL SYSTEM FOR ENVIRONMENTAL MONITORING |
2 | AN INTEGRATED CLOUD-BASED SMART HOME MANAGEMENT SYSTEM WITH COMMUNITY HIERARCHY |
3 | AUTONOMOUS GAS DETECTION AND MAPPING WITH UNMANNED AERIAL VEHICLES |
4 | CHARACTERIZATION OF AN UNDERWATER POSITIONING SYSTEM BASED ON GPS SURFACE NODES |
5 | CO-GPS ENERGY EFFICIENT GPS SENSING WITH CLOUD OFFLOADING |
6 | CLASSIFYING A PERSONS DEGREE OF ACCESSIBILITY FROM NATURAL BODY LANGUAGE DURING SOCIAL HUMAN–ROBOT INTERACTIONS |
7 | EMBEDDED CONTROL SYSTEM FOR SMART WALKING ASSISTANCE DEVICE |
8 | ENHANCED FINGERPRINTING AND TRAJECTORY PREDICTION FOR IOT LOCALIZATION IN SMART BUILDINGS |
9 | FACE RECOGNITION AND SPOOFING DETECTION SYSTEM ADAPTED TO VISUALLY-IMPAIRED PEOPLE |
10 | HIGH-PRECISION VEHICLE NAVIGATION IN URBAN ENVIRONMENTS USING AN MEMS IMU AND SINGLE-FREQUENCY GPS RECEIVER |
11 | MEASUREMENT SYSTEM WITH ACCELEROMETER INTEGRATED RFID TAG FOR INFRASTRUCTURE HEALTH MONITORING |
12 | NON-INTRUSIVE PLANNING THE ROADSIDE INFRASTRUCTURE FOR VEHICULAR NETWORKS |
13 | IoT Localization for Bistatic Passive UHF RFID Systems with 3D Radiation Pattern |
14 | NONLINEAR COORDINATED STEERING AND BRAKING CONTROL OF VISIONBASED AUTONOMOUS VEHICLES IN EMERGENCY OBSTACLE AVOIDANCE |
15 | PREFETCHING-BASED DATA DISSEMINATION IN VEHICULAR CLOUD SYSTEMS |
16 | SIZING AND ANALYSIS OF RENEWABLE ENERGY AND BATTERY SYSTEMS IN RESIDENTIAL MICROGRIDS |
17 | SMART CONFIGURATION OF SMART ENVIRONMENTS |
18 | SMART ELECTRICITY METER DATA INTELLIGENCE FOR FUTURE ENERGY SYSTEMS A SURVEY |
19 | TEACH ME–SHOW ME”—END-USER PERSONALIZATION OF A SMART HOME AND COMPANION ROBOT |
20 | TOWARD A WEARABLE RFID SYSTEM FOR REAL-TIME ACTIVITY RECOGNITION USING RADIO PATTERNS |
20 | VEHICLE-ASSISTED DEVICE-TO-DEVICE DATA DELIVERY FOR SMART GRID |
21 | A TIME SYNCHRONIZATION TECHNIQUE FOR COAP-BASED HOME AUTOMATION SYSTEMS |
22 | AN INTEGRATED CLOUD-BASED SMART HOME MANAGEMENT SYSTEM WITH COMMUNITY HIERARCHY |
23 | REAL-TIME GLOBAL LOCALIZATION OF ROBOTIC CARS IN LANE LEVEL VIA LANE MARKING DETECTION AND SHAPE REGISTRATION |
24 | A TIME SYNCHRONIZATION TECHNIQUE FOR COAP-BASED HOME AUTOMATION SYSTEMS |
25 | AUTONOMOUS WEARABLE SYSTEM FOR VITAL SIGNS MEASUREMENT WITH ENERGY-HARVESTING MODULE |
26 | GENERATION OF A PRECISE AND EFFICIENT LANE-LEVEL ROAD MAP FOR INTELLIGENT VEHICLE SYSTEMS |