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2. Obstacle avoidance - Wikipedia

   en.wikipedia.org/wiki/Obstacle_avoidance

   Example of obstacle avoidance using sensors. One of the most common approaches to obstacle avoidance is the use of various sensors, such as ultrasonic , LiDAR , radar , sonar , and cameras . These sensors allow an autonomous machine to do a simple 3 step process: sense, think, and act.

3. Velocity obstacle - Wikipedia

   en.wikipedia.org/wiki/Velocity_obstacle

   The velocity obstacle VO AB for a robot A, with position x A, induced by another robot B, with position x B and velocity v B.. In robotics and motion planning, a velocity obstacle, commonly abbreviated VO, is the set of all velocities of a robot that will result in a collision with another robot at some moment in time, assuming that the other robot maintains its current velocity. [1]

4. Bug algorithm - Wikipedia

   en.wikipedia.org/wiki/Bug_algorithm

   The robot is treated as a point inside a 2D world. The obstacles (if any) are unknown and nonconvex. There are clearly defined starting point and goal. The robot is able to detect obstacle boundary from a distance of known length. The robot always knows the direction and how far (in terms of Euclidean distance) it is from the goal.

5. Advanced driver-assistance system - Wikipedia

   en.wikipedia.org/wiki/Advanced_driver-assistance...

   Driver monitoring system is designed to monitor the alertness of the driver. [18] These systems use biological and performance measures to assess the driver's alertness and ability to conduct safe driving practices. [18] Currently, these systems use infrared sensors and cameras to monitor the driver's attentiveness through eye-tracking. [18]

6. Mobile robot - Wikipedia

   en.wikipedia.org/wiki/Mobile_robot

   The components of a mobile robot are a controller, sensors, actuators and power system. [3] The controller is generally a microprocessor, embedded microcontroller or a personal computer (PC). The sensors used are dependent upon the requirements of the robot.

7. Dynamic window approach - Wikipedia

   en.wikipedia.org/wiki/Dynamic_window_approach

   In robotics motion planning, the dynamic window approach is an online collision avoidance strategy for mobile robots developed by Dieter Fox, Wolfram Burgard, and Sebastian Thrun in 1997. [1] Unlike other avoidance methods, the dynamic window approach is derived directly from the dynamics of the robot, and is especially designed to deal with ...

8. AOL Mail - AOL Help

   help.aol.com/products/aol-webmail

   Get answers to your AOL Mail, login, Desktop Gold, AOL app, password and subscription questions. Find the support options to contact customer care by email, chat, or phone number.

9. Automated guided vehicle - Wikipedia

   en.wikipedia.org/wiki/Automated_guided_vehicle

   An automated guided vehicle (AGV), different from an autonomous mobile robot (AMR), is a portable robot that follows along marked long lines or wires on the floor, or uses radio waves, vision cameras, magnets, or lasers for navigation. They are most often used in industrial applications to transport heavy materials around a large industrial ...