a. Automated Vehicles For Physically and Visually Challenged
b. Coal Mine Detect & rescue Robot Design & research
c. Intelligent user interface for Human-Robot Interaction
d. Usability analysis of a PDA-based user interface for mobile robot
e. A novel robot system for surface inspection and diameter measurement of large size
f. Real-time Bluetooth communication system for control of a mobile robot
g. The design and implementation of an autonomous campus patrol robot
h. Develop a Multiple Interface Based Fire Fighting Robot
i. Remote-controlled Home Robot Server with Zigbee Sensor Network
j. Design and Implementation of Internet Based Healthcare Robot System
k. Design of a collaborative wheelchair with path guidance assistance
l. NON IEEE BASED ROBOT PROJECTS
i- based robot
m. FIRING ROBOT
n. -Axis robot
o. PC interface stationery robot -axis
p. Pick and place robot -axis
q. Pick and place robot -axis with metal detector
r. PC interface stationery robot crane model
s. Robotic car with card less video cam using IR controller
t. Cricket robot
u. Bomb detecting and clearing robot with Wireless camera
v. Live search robot based on Google road map using java
w. Voice active robots based HM speech recognition IC
x. Autonomous robot builds with wireless camera
y. Obstacle robots with multi sensors
z. PIR based human alive detected robot
aa. Fire controller robot using water sprayer
bb. Line follower robot
cc. Gas detection robot for atomic power station
dd. Designing of Robot Eyes
ee. Fire Fighting Robot
ff. Human Eyes Robot
gg. PC interface stationery robot -Axis
hh. Mini Robot Pick and Place (Using stepper motor)
ii. Mini Robot Pick and Place (Using stepper motor + DC Gear Motor) with conveyer
jj. Obstacle Robot using DC motor with FIRE, SMOKE and Metal detector
kk. Passive infrared based human alive detected Robot
ll. Ultrasonic based accidents avoid Robot
mm. Voice activated Robot using RF Remote
nn. Live Route search Robot based GOOGLE road map
oo. GPS BASED IEEE
pp. PROJECTS
qq. Efficient Cost-Based Tracking of Scheduled Vehicle Journeys
rr. Software/hardware co-design of a vehicle trajectory monitoring system
ss. Intelligent Fleet Management System with Concurrent GPS & GSM Real-Time Positioning Technology
tt. The Design of Vehicle emergent calling system based on gprs
uu. GPS Based Mobile Tele Monitoring and Management System for Inter cities Public Transportations
vv. Development of pedestrian-to-vehicle communication system prototype for pedestrian safety using both wide-area and direct communication
ww. GPS-Based Path Following Control for a Car-Like Wheeled Mobile Robot With Skidding and Slipping
xx. The design and implementation of an autonomous campus patrol robot
yy. Autonomous Traveling Control of the "TAO Aicle" Intelligent Wheelchair
zz. Monitoring and Transmission of Heavy Vehicles Parameters using Fixed Cellular Terminal
aaa. Development of on-line Diagnostics & real time early warning System for vehicles
a. Radio Frequency based remote controlled robot with wireless video camera mounted on it.
b. Autonomous Robot with artificial vision for obstacle detection.
c. Accelerometer (Gyroscope) Controlled Robot. Accelerometer is mems based 3-axis sensor that can sense the tilt in of the 3-diamentions. The robot moment is controlled based on the tilt angle of the robot. No need to press any buttons for robot control.
d. Touch Screen Controlled intellegent robot.
e. Live Human being detection wireless remote controlled Robot. (Useful for detection of terrorists hiding inside buildings).
f. GSM (SMS) Mobile Phone Controlled Intelligent Robot.
g. Micro Electro Mechanical Sensor (MEMS) Accelerometer/Gyroscope based self-balancing robot.
h. Mobile phone controlled four-legged walking robot with speed and direction control.
i. Radio Frequency (RF) Controlled Wireless Robot.
j. Infrared Light tracing Robot (TV Remote controlled).
k. Visible light follower Robot.
l. Accelerometer (Gyroscope) Controlled Robot.
m. DTMF based Mobile phone controlled Robot.
n. Obstacle detection robot with mechanical sensing switches.
o. Line Follower Robot.
p. Live Human detection and alerting Robot.
q. Remote Controlled Land Rover.
r. PC Controlled Wired Robot.
s. PC Controlled Wireless Robot.
t. Obstacle detection Robot with Ultrasonic Sensors.
u. Wall Follower Robot.
v. Robot Controlled Wireless Audio-Video Streaming Camera.
a. Radio Frequency based remote controlled robot with wireless video camera mounted on it.
b. Autonomous Robot with artificial vision for obstacle detection.
c. Accelerometer (Gyroscope) Controlled Robot. Accelerometer is mems based 3-axis sensor that can sense the tilt in of the 3-diamentions. The robot moment is controlled based on the tilt angle of the robot. No need to press any buttons for robot control.
d. Touch Screen Controlled intellegent robot.
e. Live Human being detection wireless remote controlled Robot. (Useful for detection of terrorists hiding inside buildings).
f. GSM (SMS) Mobile Phone Controlled Intelligent Robot.
g. Micro Electro Mechanical Sensor (MEMS) Accelerometer/Gyroscope based self-balancing robot.
h. Mobile phone controlled four-legged walking robot with speed and direction control.
i. Radio Frequency (RF) Controlled Wireless Robot.
j. Infrared Light tracing Robot (TV Remote controlled).
k. Visible light follower Robot.
l. Accelerometer (Gyroscope) Controlled Robot.
m. DTMF based Mobile phone controlled Robot.
n. Obstacle detection robot with mechanical sensing switches.
o. Line Follower Robot.
p. Live Human detection and alerting Robot.
q. Remote Controlled Land Rover.
r. PC Controlled Wired Robot.
s. PC Controlled Wireless Robot.
t. Obstacle detection Robot with Ultrasonic Sensors.
u. Wall Follower Robot.
v. Robot Controlled Wireless Audio-Video Streaming Camera
b. Coal Mine Detect & rescue Robot Design & research
c. Intelligent user interface for Human-Robot Interaction
d. Usability analysis of a PDA-based user interface for mobile robot
e. A novel robot system for surface inspection and diameter measurement of large size
f. Real-time Bluetooth communication system for control of a mobile robot
g. The design and implementation of an autonomous campus patrol robot
h. Develop a Multiple Interface Based Fire Fighting Robot
i. Remote-controlled Home Robot Server with Zigbee Sensor Network
j. Design and Implementation of Internet Based Healthcare Robot System
k. Design of a collaborative wheelchair with path guidance assistance
l. NON IEEE BASED ROBOT PROJECTS
i- based robot
m. FIRING ROBOT
n. -Axis robot
o. PC interface stationery robot -axis
p. Pick and place robot -axis
q. Pick and place robot -axis with metal detector
r. PC interface stationery robot crane model
s. Robotic car with card less video cam using IR controller
t. Cricket robot
u. Bomb detecting and clearing robot with Wireless camera
v. Live search robot based on Google road map using java
w. Voice active robots based HM speech recognition IC
x. Autonomous robot builds with wireless camera
y. Obstacle robots with multi sensors
z. PIR based human alive detected robot
aa. Fire controller robot using water sprayer
bb. Line follower robot
cc. Gas detection robot for atomic power station
dd. Designing of Robot Eyes
ee. Fire Fighting Robot
ff. Human Eyes Robot
gg. PC interface stationery robot -Axis
hh. Mini Robot Pick and Place (Using stepper motor)
ii. Mini Robot Pick and Place (Using stepper motor + DC Gear Motor) with conveyer
jj. Obstacle Robot using DC motor with FIRE, SMOKE and Metal detector
kk. Passive infrared based human alive detected Robot
ll. Ultrasonic based accidents avoid Robot
mm. Voice activated Robot using RF Remote
nn. Live Route search Robot based GOOGLE road map
oo. GPS BASED IEEE
pp. PROJECTS
qq. Efficient Cost-Based Tracking of Scheduled Vehicle Journeys
rr. Software/hardware co-design of a vehicle trajectory monitoring system
ss. Intelligent Fleet Management System with Concurrent GPS & GSM Real-Time Positioning Technology
tt. The Design of Vehicle emergent calling system based on gprs
uu. GPS Based Mobile Tele Monitoring and Management System for Inter cities Public Transportations
vv. Development of pedestrian-to-vehicle communication system prototype for pedestrian safety using both wide-area and direct communication
ww. GPS-Based Path Following Control for a Car-Like Wheeled Mobile Robot With Skidding and Slipping
xx. The design and implementation of an autonomous campus patrol robot
yy. Autonomous Traveling Control of the "TAO Aicle" Intelligent Wheelchair
zz. Monitoring and Transmission of Heavy Vehicles Parameters using Fixed Cellular Terminal
aaa. Development of on-line Diagnostics & real time early warning System for vehicles
a. Radio Frequency based remote controlled robot with wireless video camera mounted on it.
b. Autonomous Robot with artificial vision for obstacle detection.
c. Accelerometer (Gyroscope) Controlled Robot. Accelerometer is mems based 3-axis sensor that can sense the tilt in of the 3-diamentions. The robot moment is controlled based on the tilt angle of the robot. No need to press any buttons for robot control.
d. Touch Screen Controlled intellegent robot.
e. Live Human being detection wireless remote controlled Robot. (Useful for detection of terrorists hiding inside buildings).
f. GSM (SMS) Mobile Phone Controlled Intelligent Robot.
g. Micro Electro Mechanical Sensor (MEMS) Accelerometer/Gyroscope based self-balancing robot.
h. Mobile phone controlled four-legged walking robot with speed and direction control.
i. Radio Frequency (RF) Controlled Wireless Robot.
j. Infrared Light tracing Robot (TV Remote controlled).
k. Visible light follower Robot.
l. Accelerometer (Gyroscope) Controlled Robot.
m. DTMF based Mobile phone controlled Robot.
n. Obstacle detection robot with mechanical sensing switches.
o. Line Follower Robot.
p. Live Human detection and alerting Robot.
q. Remote Controlled Land Rover.
r. PC Controlled Wired Robot.
s. PC Controlled Wireless Robot.
t. Obstacle detection Robot with Ultrasonic Sensors.
u. Wall Follower Robot.
v. Robot Controlled Wireless Audio-Video Streaming Camera.
a. Radio Frequency based remote controlled robot with wireless video camera mounted on it.
b. Autonomous Robot with artificial vision for obstacle detection.
c. Accelerometer (Gyroscope) Controlled Robot. Accelerometer is mems based 3-axis sensor that can sense the tilt in of the 3-diamentions. The robot moment is controlled based on the tilt angle of the robot. No need to press any buttons for robot control.
d. Touch Screen Controlled intellegent robot.
e. Live Human being detection wireless remote controlled Robot. (Useful for detection of terrorists hiding inside buildings).
f. GSM (SMS) Mobile Phone Controlled Intelligent Robot.
g. Micro Electro Mechanical Sensor (MEMS) Accelerometer/Gyroscope based self-balancing robot.
h. Mobile phone controlled four-legged walking robot with speed and direction control.
i. Radio Frequency (RF) Controlled Wireless Robot.
j. Infrared Light tracing Robot (TV Remote controlled).
k. Visible light follower Robot.
l. Accelerometer (Gyroscope) Controlled Robot.
m. DTMF based Mobile phone controlled Robot.
n. Obstacle detection robot with mechanical sensing switches.
o. Line Follower Robot.
p. Live Human detection and alerting Robot.
q. Remote Controlled Land Rover.
r. PC Controlled Wired Robot.
s. PC Controlled Wireless Robot.
t. Obstacle detection Robot with Ultrasonic Sensors.
u. Wall Follower Robot.
v. Robot Controlled Wireless Audio-Video Streaming Camera
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