urban search and rescue 2009 - carnegie mellon school of ...€¦ · urban search and rescue 2009...

19
Urban Search and Rescue 2009 Lead TA's: Alex May Max Harper Rexy Tseng Akshay Jayaram Jong Eun Kim

Upload: others

Post on 06-Jun-2020

1 views

Category:

Documents


0 download

TRANSCRIPT

Page 1: Urban Search and Rescue 2009 - Carnegie Mellon School of ...€¦ · Urban Search and Rescue 2009 Lead TA's: Alex May Max Harper Rexy Tseng Akshay Jayaram Jong Eun Kim. Purpose

Urban Search and Rescue 2009

Lead TA's:

Alex MayMax HarperRexy Tseng

Akshay JayaramJong Eun Kim

Page 2: Urban Search and Rescue 2009 - Carnegie Mellon School of ...€¦ · Urban Search and Rescue 2009 Lead TA's: Alex May Max Harper Rexy Tseng Akshay Jayaram Jong Eun Kim. Purpose

Purpose

– Carnegie Urban Rescue Force (CURF) has started a initiative with the General Robotics

Class of Spring 2009 to develop a fleet of highly compatible robots to help in the rescue effort.

Page 3: Urban Search and Rescue 2009 - Carnegie Mellon School of ...€¦ · Urban Search and Rescue 2009 Lead TA's: Alex May Max Harper Rexy Tseng Akshay Jayaram Jong Eun Kim. Purpose

Design Criteria - Size Constraints Width: 7.0” Depth: 8.5” Height: 6.0” note: you must construct your robot to be less than the

dimension requirements to navigate doorways

- Tele-operation code on website - Vision System camera supplied - Parts 4 LEGO motors, 2 servos $20 spending limit on additional parts (not funded by course) Additional parts must be approved BEFORE CHECKPOINT (24th) - Co-operation Teams of two of your choice

Page 4: Urban Search and Rescue 2009 - Carnegie Mellon School of ...€¦ · Urban Search and Rescue 2009 Lead TA's: Alex May Max Harper Rexy Tseng Akshay Jayaram Jong Eun Kim. Purpose

Important Dates

–Write a Proposal March 17–Checkpoint March 23 &

24–USAR Demo March 31–USAR Finalists April 1

Page 5: Urban Search and Rescue 2009 - Carnegie Mellon School of ...€¦ · Urban Search and Rescue 2009 Lead TA's: Alex May Max Harper Rexy Tseng Akshay Jayaram Jong Eun Kim. Purpose

Design Proposal– Write-up:

- Basic schematics- Descriptions- Special features- Obstacles- Climbing- Steering- Controllability

– Following outline is Highly Recommended.– Note: You cannot continue on with the

prototyping phase if your design proposal does not meet these requirements

Page 6: Urban Search and Rescue 2009 - Carnegie Mellon School of ...€¦ · Urban Search and Rescue 2009 Lead TA's: Alex May Max Harper Rexy Tseng Akshay Jayaram Jong Eun Kim. Purpose

Design Proposal

–Qualitative analysis• Mobility, user friendliness, coolness

–Quantitative analysis Top speed, ground clearance, torque

–For the proposal, we would like you to think numerically.

Page 7: Urban Search and Rescue 2009 - Carnegie Mellon School of ...€¦ · Urban Search and Rescue 2009 Lead TA's: Alex May Max Harper Rexy Tseng Akshay Jayaram Jong Eun Kim. Purpose

Last Year's Scenario- The three-story Super Advanced Research Lab collapsed during an earthquake.

- The earthquake also caused a massive power failure.

- Teams of two robots entered the disaster zone to locate trapped survivors.

- An unknown number of hostile robots had taken refuge in the collapsed building

- Numerous obstacles including stairs, unstable surfaces, narrow openings, and rubble. Some obstacles required cooperation between robots.

Page 8: Urban Search and Rescue 2009 - Carnegie Mellon School of ...€¦ · Urban Search and Rescue 2009 Lead TA's: Alex May Max Harper Rexy Tseng Akshay Jayaram Jong Eun Kim. Purpose

This Year's Scenario

The Gate's Center was finally done when there was a devastating construction accident. The building was damaged and many workers were trapped. Once again, teams of two robots have been asked to deploy to the disaster site. Nothing else is known yet. More information is coming next week.

Page 9: Urban Search and Rescue 2009 - Carnegie Mellon School of ...€¦ · Urban Search and Rescue 2009 Lead TA's: Alex May Max Harper Rexy Tseng Akshay Jayaram Jong Eun Kim. Purpose

Design Tips

–Drive Trains–Center of Gravity–Mechanical Robustness–Vision/Lighting–Control–Testing

Page 10: Urban Search and Rescue 2009 - Carnegie Mellon School of ...€¦ · Urban Search and Rescue 2009 Lead TA's: Alex May Max Harper Rexy Tseng Akshay Jayaram Jong Eun Kim. Purpose

Drive Trains

- Speed vs Torque- Maneuverability- Driving in reverse- Small rubble's effect on system- Robot may not intentionally damage world (NO TACKED WHEELS)

Page 11: Urban Search and Rescue 2009 - Carnegie Mellon School of ...€¦ · Urban Search and Rescue 2009 Lead TA's: Alex May Max Harper Rexy Tseng Akshay Jayaram Jong Eun Kim. Purpose

Off Road Examples

• Land Rover• Jeep• CMU Boss• Tanks• Moon Rover• Mars Rovers• ATVs

Page 12: Urban Search and Rescue 2009 - Carnegie Mellon School of ...€¦ · Urban Search and Rescue 2009 Lead TA's: Alex May Max Harper Rexy Tseng Akshay Jayaram Jong Eun Kim. Purpose

Center of Gravity

– Masses• Handy Board• LEGO motors• Added mass (batteries, fishing weights,

etc.)– High center of gravity is bad (climbing)– Traction on front, center, or rear?

Depends on drive train.

Page 13: Urban Search and Rescue 2009 - Carnegie Mellon School of ...€¦ · Urban Search and Rescue 2009 Lead TA's: Alex May Max Harper Rexy Tseng Akshay Jayaram Jong Eun Kim. Purpose

Mechanical Robustness

–Weight distribution and support–Gears and moving components–Rubble, shocks, drops, high torque

situations–Possible suspension solutions–No unsecured parts–Zip Ties

Page 14: Urban Search and Rescue 2009 - Carnegie Mellon School of ...€¦ · Urban Search and Rescue 2009 Lead TA's: Alex May Max Harper Rexy Tseng Akshay Jayaram Jong Eun Kim. Purpose

Vision/Lighting

Blind Spots: Pan and Tilt

Visibility: Lighting System, Camera Mount

Page 15: Urban Search and Rescue 2009 - Carnegie Mellon School of ...€¦ · Urban Search and Rescue 2009 Lead TA's: Alex May Max Harper Rexy Tseng Akshay Jayaram Jong Eun Kim. Purpose

Control

- Depth and velocity perception are distorted through the camera- Practice driving through the camera- Movable camera- Range of vision vs maneuverability- Control interface- Possible intelligent features (self centering camera, feedback control, tip detection, etc...)

Page 16: Urban Search and Rescue 2009 - Carnegie Mellon School of ...€¦ · Urban Search and Rescue 2009 Lead TA's: Alex May Max Harper Rexy Tseng Akshay Jayaram Jong Eun Kim. Purpose

Testing

–Torque and traction–Robustness of drive mechanics –Drop test–Various terrain–Ground clearance–Center of Gravity and climbing–Turning and driving in reverse–LIGHTING–Team communication and strategy

Page 17: Urban Search and Rescue 2009 - Carnegie Mellon School of ...€¦ · Urban Search and Rescue 2009 Lead TA's: Alex May Max Harper Rexy Tseng Akshay Jayaram Jong Eun Kim. Purpose

Checkpoint (previous years) General Observations from Checkpoints

− Incline Nearly everyone was able to complete this obstacle

− Bumps Nearly everyone was able to complete this obstacle

− Stairs Some teams were not able to complete this obstacle but it is highly

recommended that you do.− Rubble

Some robots got hung up on the rubble − Narrow Corridor

Nearly everyone was able to complete this obstacle− Low Light

Only a handful of teams completed this check point

Page 18: Urban Search and Rescue 2009 - Carnegie Mellon School of ...€¦ · Urban Search and Rescue 2009 Lead TA's: Alex May Max Harper Rexy Tseng Akshay Jayaram Jong Eun Kim. Purpose

What Didn’t Work Low ground clearance

− Robots getting hung up on rubble and bumps Light weight robots

− Robots don’t weigh enough to produce proper traction High center of gravity

− Robots begin to climb stairs and inclines only to flip over High torque wheels/treads

− Torque is good but so is speed Size constraints

− If your robot changes dimension be sure you can still fit through narrow corridors Fragile Designs

− If you lose any part of your robot during the competition your run is over− Grinding and/or clicking noises are never a good thing− Two words: Drop Test

Page 19: Urban Search and Rescue 2009 - Carnegie Mellon School of ...€¦ · Urban Search and Rescue 2009 Lead TA's: Alex May Max Harper Rexy Tseng Akshay Jayaram Jong Eun Kim. Purpose

ReminderNote: Only group members present at ALL

stages of evaluation will receive gradesProposal (March 17)

Design, Extra Parts (prices), meet with TA's

Checkpoint (March 23 & 24)Size constraints, rubble, climbing, vision, drop tests

Reveal this year's world map

USAR Demo (March 31)In class TEAM demo Must vacate REL before March 31 0:00

REMEMBER TO CHARGE YOUR ROBOTS

USAR Finalists (April 1)Come and watch the final four robots compete SOLO for GLORY!