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Description: We can control the action of robot by the clicking the left button. 1. If we dont's make any control, the robot will do nothing, but just stand. 2. If we click the left button ,then the robot start to move, including torso, arms, head and legs. 3. If we click the left button again, the robot will stop. 4. Add lighting, control light position, type and property, and choose material */
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Size: 17312 |
Author: zqjvip |
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Description: It is a c++ openGL programe, it is a robot, can rotate it s arms and legs . -It is a c++ OpenGL programe, it is a robot, can rotate it s arms and legs.
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Size: 288768 |
Author: cheonghoi |
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Description: Adaptive microwave phased array antennas are well known for their ability to improve the performance of communications and radar systems. And now, adaptive phased array techniques are beginning to be successfully applied to RF and microwave thermotherapy treatment of cancerous tumors. This groundbreaking book details innovative phased array techniques currently being developed at the MIT Lincoln Laboratory for cancer treatment. Until now, this material has only been available in Lincoln Laboratory reports and peer-reviewed journals. From electromagnetic field theory for tissue heating...to simulations of adaptive phased array thermotherapy for deep tumors of the torso...to coverage of arrays for tumors in the head, neck, breast, and chest wall, this timely resource offers the expert guidance engineers and researchers need to work in this emerging area. Readers also find an insightful look at future research topics for adaptive phased array thermotherapy.([E-BOOK] Alan J. Fenn 'Adap tive Phased Array Thermotherapy for Cancer' ISBN: 9781849960274)
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Size: 18080768 |
Author: 贝克汉公 |
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Description: 运用正反向动力学来坐上楼梯动画,包括骨骼,蒙皮。(The implementation of an OpenGL based C++ program to animate a humanoid walking up stairs and across an incline. Forward kinematics is used to walk up stairs, by setting the root to the torso when lifting the leg and to the foot when lifting the body up one step. Inverse kinematics is used to adjust the height of the foot when walking across the incline. If the ankle passes below the surface of the floor, the ankle is lifted to a position above the floor with inverse kinematics and the angle of the foot is adjusted to match the incline. The actual joint angles used for the walking animation are not the greatest, but could be easily adjusted to provide a more natural gait. A simple skinning algorithm was used to add a skin to the 'skeleton' of the figure. Key commands describing program usage are printed to an accompanying console. An executable and C++ source code are available for download. The following images show a solid figure, and a wireframe figure with skeleton exposed.)
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Size: 43008 |
Author: 有故事 |
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