CURI - 4

built by George Katz

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Target Environment Locomotion Method
Indoors 2 Wheels
Sensors / Input Devices Actuators / Output Devices
CCD Camera
2 DC drive motors
4 RC servos
Control Method Power Source
Tethered tether
CPU Type Operating System
Intel 80x86 N/A
Programming Lanuage Weight
Time to build Cost to build
N/A About US$300
URL for more information
The CURI-4 platform was developed to investigate a layered behavioral control scheme for a mobile robot. CURI-4 is a small tethered robot equipped with a camera and a gripper for grasping objects. The tether carries data as well as power. The main robot components are 2 DC motors with gearboxes for the drive mechanism, 4 RC type servo motors, a small CCD camera and custom electronics for the motor control. The drive configuration is a tripod with 2 individually powered wheels and a static caster skid. One servo controls the pitch of the camera, 2 servos are used in the gripper, and the fourth servo is used for a leg that allows the robot to tilt raising and lowering the gripper. The camera can be positioned so that it can image itís own gripper in order to see what it is picking up. The structural frame largely consists of aluminum and plastic, with several steel components.

CURI-4 is controlled by a 486DX40, 8Mb RAM, 500Mb HDD equipped with a Creative Labs Video Blaster for image capture. CURI-4 interfaces to the PC via an Interface Unit that houses power supplies as well as some control electronics.

The custom software being developed for CURI-4 is aimed at providing prioritized behavior control. The robotís primary behavior is to play with a ball. This involves finding it, picking it up and hiding it. For convenience it forgets where it hides it and has to do it all again. On top of this b ehavior are superimposed higher priority behaviors that help CURI-4 avoid obstacles and deal with other real world situations. If it hears a loud noise, it suspends its ball hiding/finding behavior and attempts to hide itself in a dark corner. After a period of silence, the original behavior resu mes. Upon hearing a whistle it attempts to follow anything that moves. During each behavior, higher priority behaviors interrupt the current one and return to it only when the higher behavior has finished. Yes, it does sound like a pet dog, or cat, and in fact that is the main research aim.


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