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Anonymous1769239447
01-27 04:35
Model Name
mining robot 3d model
Tags
machine
machine realistic
machine simulation
machine simulation realistic
mining robot
realistic
simulation
simulation realistic
Prompt
Generate a complete, realistiGenerate a realistic industrial anthropomorphic mining robot controlled via human motion capture, inspired by avatar-style teleoperation. Design requirements: - Upper body anthropomorphic (human-like torso and two arms) - Two industrial robotic arms with shoulder, elbow, and wrist joints - Lower body based on a tracked crawler platform (no legs) - Non-humanoid face, no facial features - Industrial proportions and reinforced structure Control concept: - Robot is designed for real-time teleoperation - Human operator controls the robot using body-mounted IMU sensors - Robot mirrors human upper-body movements with scaled and filtered motion Subsystems to include: - Front-mounted stereo RGB cameras - Thermal camera for low visibility - Head-mounted or chest-mounted LiDAR - Gas sensors on lower body - Emergency stop button Materials and style: - Industrial metal casing - Matte yellow and black color scheme - Thick joints and reinforced limbs - No sci-fi or futuristic aesthetics Scale: - Height (including upper body): approx. 1.6 meters - Width: approx. 0.9 meters - Length: approx. 1.4 meters Environment: - Underground mine tunnel or neutral background - No humans The robot must look like a real, manufacturable prototype using existing technologies. c industrial-grade 3D model of an underground mining robot intended to replace human workers in high-risk mine environments. Design requirements: - Non-humanoid, strictly industrial design - Tracked crawler chassis (continuous rubber tracks with metal inserts) - Low center of gravity, wide stance for stability on uneven terrain - Rectangular armored main body with rounded edges - One front-mounted robotic manipulator arm with 5 degrees of freedom - Manipulator designed for debris removal, tool handling, and inspection tasks Subsystems to visibly include: - Dual front-facing RGB cameras - One infrared/thermal camera for low-visibility conditions - Top-mounted 360-degree LiDAR sensor - Gas sensors (CH4, CO, O2) mounted on the sides and lower front - Emergency stop button clearly visible on the body - Warning labels and industrial markings Materials and appearance: - Matte industrial metal casing (aluminum or steel) - Color scheme: mining yellow and black - No glossy, no transparent, no decorative elements - No exposed wires or unrealistic thin parts - Thick, reinforced joints and components Scale and proportions: - Length approximately 1.4 meters - Width approximately 0.8 meters - Height approximately 0.6 meters - Realistic proportions consistent with manufacturable industrial robots Style constraints: - Must look like a real, manufacturable prototype that could be built today - No sci-fi, no futuristic aesthetics, no cyberpunk, no humanoid features - Engineering-focused, not concept art fantasy Environment: - Neutral background or underground mine tunnel - No humans present - Focus entirely on the robot Output: - High-detail but engineering-oriented 3D model - Clean, solid geometry suitable for CAD review or simulation - The final result should resemble real mining or military robotics equipment
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