Difference between revisions of "Bomb Disarming Robot (BDR)"

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<h2>SPECIFICATIONS</h2>
<h2>SPECIFICATIONS</h2>


<p>Design a robot using MLCAD as
<p>Design a robot using MLCad as
your primary design tool. Your team must build a model of your design using the
your primary design tool. Your team must build a model of your design using the
materials provided. A RoboLAB program that will direct the robot's movements
materials provided. A RoboLab program that will direct the robot's movements
must be created. A cost estimate of the robot's components must be provided.
must be created. A cost estimate of the robot's components must be provided.
All revisions to the original design must be recorded and explained. This
All revisions to the original design must be recorded and explained. This
includes technical design drawings, as well as cost estimates. All revisions to
includes technical design drawings, as well as cost estimates. All revisions to
the RoboLAB program must be recorded and explained.</p>
the RoboLab program must be recorded and explained.</p>


<p>The BDR must be able to move
<p>The BDR must be able to move
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<p>For extra credit, the robot can retrieve a piece of the bomb (ping pong ball) and
<p>For extra credit, the robot can retrieve a piece of the bomb (ping pong ball) and
return it to base. The first ping pong ball is located on the left side of the
return it to base. The first ping pong ball is located on the left side of the
disarm button. Returning the bomb to the starting point is worth an additional 3
disarm button. The second ball is located outside the perimeter of the bombs. It is on
points on your Final Proposal Cover Letter grade. For additional extra credit, there
the right side. You must retrieve the first ball in order to be eligible for credit
is another piece of the bomb located in a different location that the robot can also
for the second ball. A diagram of the placement of the bombs is shown below in Figiure 3:</p>
retrieve. The second ball is located outside the perimeter of the bombs. It is on
the right side. Returning this piece to the starting point is worth an additional 5
points of extra credit. Therefore, if both pieces of the bomb are retrieved, a total
of 8 extra credit points will be awarded to your Final Proposal Cover Letter. You
must retrieve the first ball in order to be eligible for credit for the second ball.
A diagram of the placement of the bombs is shown below in Figiure 3:</p>


<p align=center>[[Image:bdr1.gif]]</p>
<p align=center>[[Image:bdr1.gif]]</p>


<p class=caption>Figure 3: BDR bomb placement</p>
<p class=caption>Figure 3: BDR bomb placement</p>
<p>For extra credit, the robot can retrieve a piece of the bomb (ping pong ball)
and return it to base. Returning the bomb to the starting point is worth an additional
3 points on your Final Proposal Cover Letter grade.
For additional extra credit, there is another piece of the bomb located in a different
location that the robot can also retrieve. Returning this piece to the starting point is
worth an additional 5 points of extra credit. Therefore, if both pieces of the bomb are
retrieved, a total of 8 extra credit points will be awarded to your Final Proposal Cover
Letter. You must retrieve the first ball in order to be eligible for credit for the second
ball.</p>


<p>If you would like to design your own route, you may ask your instructor for permission.</p>
<p>If you would like to design your own route, you may ask your instructor for permission.</p>
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<h3>DRAWINGS</h3>
<h3>DRAWINGS</h3>


<p>A command of <b>MLCAD</b> is necessary for you to complete
<p>A command of <b>MLCad</b> is necessary for you to complete
the drawings required for this project. Use MLCAD to create four drawings of
the drawings required for this project. Use MLCad to create four drawings of
your robot: front, top, most detailed side, and a drawing of your gear trains.
your robot: front, top, most detailed side, and a drawing of your gear trains.
Sensors, motors, and gears must be included in each drawing. All parts used in
Sensors, motors, and gears must be included in each drawing. All parts used in
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<p align=center>[[Image:bdr4.gif]]</p>
<p align=center>[[Image:bdr4.gif]]</p>


<p class=caption>Figure 4: Sample isometric image from MLCAD (without part numbers)</p>
<p class=caption>Figure 4: Sample isometric image from MLCad (without part numbers)</p>


<h3>MODEL</h3>
<h3>MODEL</h3>
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<ol>
<ol>
<li>RoboLAB kit</li>
<li>RoboLab kit</li>


<li>One RCX</li>
<li>One RCX</li>
Line 226: Line 207:


<p>Using MLCad, prepare four views of your latest design: front, top, most detailed side, and an isometric drawing.
<p>Using MLCad, prepare four views of your latest design: front, top, most detailed side, and an isometric drawing.
Create an MLCad drawing of your gear trains. Complete your latest RoboLAB program and your latest MS Project plan
Create an MLCad drawing of your gear trains. Complete your latest RoboLab program and your latest MS Project plan
reflecting any schedule changes. Finally, calculate a revised cost estimate. A signed Component Testing Form must be
reflecting any schedule changes. Finally, calculate a revised cost estimate. A signed Component Testing Form must be
submitted to your Recitation TA.</p>
submitted to your Recitation TA.</p>
Line 242: Line 223:


<p>Using MLCad, prepare four views of your latest design: front, top, most detailed side, and an isometric drawing. Create
<p>Using MLCad, prepare four views of your latest design: front, top, most detailed side, and an isometric drawing. Create
an MLCad drawing of your gear trains. Complete your latest RoboLAB program and your latest MS Project plan reflecting any
an MLCad drawing of your gear trains. Complete your latest RoboLab program and your latest MS Project plan reflecting any
schedule changes. Finally, calculate a revised cost estimate. </p>
schedule changes. Finally, calculate a revised cost estimate. </p>


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<p>The exact specifications for your final presentation will be provided by
<p>The exact specifications for your final presentation will be provided by
your instructor. Some of these requirements will be: the features and benefits
your instructor. Some of these requirements will be: the features and benefits
of your design, project specifications, all drawings, RoboLAB programs, cost
of your design, project specifications, all drawings, RoboLab programs, cost
estimates, and your completed MS Project. Ideally, commissioning should take
estimates, and your completed MS Project. Ideally, commissioning should take
place before the Final Presentation. If, for some reason, you were not commissioned,
place before the Final Presentation. If, for some reason, you were not commissioned,
Line 268: Line 249:
must be persuasive in tone.</p>
must be persuasive in tone.</p>


<p>The Appendix must include your initial sketch, all the drawings of your final design, the final RoboLAB program, the final MS Project,
<p>The Appendix must include your initial sketch, all the drawings of your final design, the final RoboLab program, the final MS Project,
and the final cost estimate. Be sure to include photographs your final model.</p>
and the final cost estimate. Be sure to include photographs your final model.</p>



Revision as of 20:14, 31 January 2007

RFP*: BDR (Bomb Disarming Robot)

* RFP is an acronym for Request For Proposal. Internationally, RFPs are called ITTs, an acronym for Invitation To Tender. Companies and governmental agencies use RFPs to solicit new business.

INTRODUCTION AND OVERVIEW

The United States Department of Homeland Security, was established in 2002 by an executive order issued by President George W. Bush. The department is an amalgamation of 22 federal agencies all dedicated in various ways to the protection of our country. The Department has three primary missions:

  1. To prevent terrorist attacks within the United States,
  2. To reduce America's vulnerability to terrorism, and
  3. To minimize the damage from potential attacks and natural disasters.

Among its many directives, the Department considers it a top priority to reduce the threat imposed by explosive devices to both our citizens and our first responders. As recent events have made clear, the potential danger to innocents is real and is one we must contend with. A strategic component of the Department's 10-point plan to deal with explosives that threaten the citizenry is a fully autonomous robot designed to navigate to an explosive device and disarm it. Such a machine would not only reduce the threat to bystanders, but would protect the brave men and women who have dedicated their lives to our safety.

This bomb disarming robot, code-named BDR, should be nimble and effective. Your design must be reliable and cost-effective, as the Department envisions the deployment of a large number of BDRs throughout the country. The winning proposal must demonstrate the dependability of your design.

Innovation in your approach to the problem will be rewarded. Please give details about your company and its lead employees and give at least one example of a similar project completed by your firm. Please refer to the specifications that follow as you prepare your proposal cover letter. The format outlined in the Technical Communication section of this manual is the one you should use.

SPECIFICATIONS

Design a robot using MLCad as your primary design tool. Your team must build a model of your design using the materials provided. A RoboLab program that will direct the robot's movements must be created. A cost estimate of the robot's components must be provided. All revisions to the original design must be recorded and explained. This includes technical design drawings, as well as cost estimates. All revisions to the RoboLab program must be recorded and explained.

The BDR must be able to move autonomously over a pre-selected route, disarm the center bomb, avoiding two decoy bombs, and, for extra credit, pick up the explosive device and return it to the start point. In addition, there is a second device in another location, and retrieving this device as well will earn additional extra credit. The robot must fit in the dimension box, and begin behind the starting line (see Figure 1). These specifications must be met for final commissioning.

The robot program may not be altered or switched during any part of the mission. Likewise, the robot must be fully autonomous, and therefore cannot be touched by any person during testing. Please refer to the course syllabus for all due dates.

ROUTE CHOICES

Bdr2.gif

Figure 1: BDR navigation field with the 4 main routes highlighted

Bdr3.gif

Figure 2: Alternate view of BDR navigation field.
Note: Testing must be performed with the hatch down, as in Figure 1

Route 1: The robot must follow the black line, disarm the bomb, and return to base (see Figures 1 and 2 Black route ).

Route 2: The robot must navigate the perimeter of the course, open a gate in its path by depressing a button, proceed to the bomb's location, and disarm it (see Figure 1 white/red route).

Route 3: The robot must navigate along the black line around the perimeter of the course until it reaches the ramp. It must travel up the ramp, navigate to a second ramp and travel back down to the black line. Next, it must proceed to the bomb's location and disarm the bomb (see Figure 1 white/green route).

Route 4: The robot must navigate through the tunnel and disarm the bomb (see Figure 1 purple route).

Please Note:

Projectile (catapult, slingshot) designs are not allowed.

For extra credit, the robot can retrieve a piece of the bomb (ping pong ball) and return it to base. The first ping pong ball is located on the left side of the disarm button. The second ball is located outside the perimeter of the bombs. It is on the right side. You must retrieve the first ball in order to be eligible for credit for the second ball. A diagram of the placement of the bombs is shown below in Figiure 3:

Bdr1.gif

Figure 3: BDR bomb placement

If you would like to design your own route, you may ask your instructor for permission.

Creativity and innovation are always rewarded. Original designs will receive extra credit.

MICROSOFT PROJECT

Your team must create a time management plan using Microsoft Project (MS Project). You can learn Microsoft Project by doing the MS Project Skill Builder contained elsewhere in this manual. This plan must include all tasks related to the project. Each task must be named, assigned a duration amd assigned to a specific person (or people). You must begin your work by creating an MS Project plan. Follow your project plan throughout the semester. If the team falls behind schedule, explain the reasons for the delays when you present your progress reports, list the steps being taken to get the project back on track, and create a revised MS Project plan.

For help in planning your project, review the page called How to plan the schedule and calculate costs for a project in the section called Material to help you with the project elsewhere in this manual.


There should be at least twenty tasks/subtasks and three Milestones. Milestones should be noted with the duration of "0day". Moreover, the copy picture function included in MS Project Software should be used instead of the print screen function of the computer.

DRAWINGS

A command of MLCad is necessary for you to complete the drawings required for this project. Use MLCad to create four drawings of your robot: front, top, most detailed side, and a drawing of your gear trains. Sensors, motors, and gears must be included in each drawing. All parts used in the robot must be referred to using the part number found in the price list.

Each revision of your design must be documented. This is done by saving the old side view drawing, and assigning a revision number to the new drawing.

Bdr4.gif

Figure 4: Sample isometric image from MLCad (without part numbers)

MODEL

You must build a scale model (1:1) of your design. The following materials will be provided:

  1. RoboLab kit
  2. One RCX
  3. Sensors
  4. Motors

Additional materials can be supplied by your TA.

Bdr5.jpg

Figure 5: Photographs of some past robot models constructed from provided materials

COST ESTIMATE

Once a robot design is complete, a cost estimate must be generated that specifies the cost of all the materials and labor required for the construction of your design. Tabulate this cost information clearly in an Excel spreadsheet, using the materials cost list provided. You can get help in calculating the cost by reviewing the page called How to plan the schedule and calculate costs for a project in the section called Material to help you with the project elsewhere in this manual. The costs for the parts can be found on the page Price list for Lego parts for robot projects in the Material to help you with the project section elsewhere in this manual.

Note: You should only use the materials contained in the Price list for Lego parts for robot projects. If you want to use other parts, get permission from your faculty member to do so, and also to determine the cost of the parts you want to use that are not in this price list.

Have all the materials and parts used categorized in different groups instead of including individual parts. Make sure to include the units of each part used in a group and total them up for that individual group. Moreover, the cost of labor should be included. You can get help on the labor cost by reading the page How to plan the schedule and calculate costs for a project in the section called Material to help you with the project elsewhere in this manual.

MILESTONES

As you work on your project, you will be required to present periodic reports on your progress. We call these Milestones. All the items assigned in each Milestone are called deliverables. These deliverables often consist of a combination of written submissions, presentations, and demonstrations.

Milestone 1

Prepare a preliminary sketch of your design, a cost estimate, and an MS Project plan. Also, indicate which route you plan to follow from the start line to the bomb.

Look Ahead: What tasks do you plan between now and Milestone 2?

Milestone 1 Deliverables: A presentation. Include the preliminary sketch, cost estimate, and MS Project plan. Include a brief description of the robot, the route to be followed, and any special features and benefits of your design.

Note: Whenever you revise your drawing(s), your cost estimate, or your MS Project plan, you must include the initial drawing, the initial cost estimate, or the initial MS Project plan, in addition to the revision.

Milestone 2

Using MLCad, prepare four views of your latest design: front, top, most detailed side, and an isometric drawing. Create an MLCad drawing of your gear trains. Complete your latest RoboLab program and your latest MS Project plan reflecting any schedule changes. Finally, calculate a revised cost estimate. A signed Component Testing Form must be submitted to your Recitation TA.

Look Ahead: What tasks do you plan between now and Milestone 3?

Milestone 2 Deliverables: A copy of your presentation slides that includes four views of your design using MLCad: front, top, most detailed side, and an isometric drawing; an MLCad drawing of your gear trains; your RoboLab program; a revised cost estimate; your revised MS Project plan; and your signed Component Testing Form.

Note: Whenever you revise your drawing(s), your cost estimate, or your MS Project plan, you must include the initial drawing, the initial cost estimate, or the initial MS Project plan, in addition to the revision.

Milestone 3

Using MLCad, prepare four views of your latest design: front, top, most detailed side, and an isometric drawing. Create an MLCad drawing of your gear trains. Complete your latest RoboLab program and your latest MS Project plan reflecting any schedule changes. Finally, calculate a revised cost estimate.

Look ahead: What tasks do you plan between now and the completion of the project?

Milestone 3 Deliverables: A copy of your presentation slides that includes four views of your design using MLCad: front, top, most detailed side, and an isometric drawing; an MLCad drawing of your gear trains; your RoboLab program; a revised cost estimate; and your revised MS Project plan.

Note: Whenever you revise your drawing(s), your cost estimate, or your MS Project plan, you must include the initial drawing, the initial cost estimate, or the initial MS Project plan, in addition to the revision.

FINAL PRESENTATION

The exact specifications for your final presentation will be provided by your instructor. Some of these requirements will be: the features and benefits of your design, project specifications, all drawings, RoboLab programs, cost estimates, and your completed MS Project. Ideally, commissioning should take place before the Final Presentation. If, for some reason, you were not commissioned, then you may do so after the presentation. A signed Commissioning Statement must be included with your final presentation materials.

Final Proposal Cover Letter: Refer to the Technical Communication section of this manual for specifics on the preparation of your cover letter. This document is the final written report describing your design project. Remember that proposals must be persuasive in tone.

The Appendix must include your initial sketch, all the drawings of your final design, the final RoboLab program, the final MS Project, and the final cost estimate. Be sure to include photographs your final model.

EARLY ACCEPTANCE

If you complete your project one week early, you are eligible for a bonus that will be added to your final semester-long project grade. You must submit all deliverables by 5PM one week before your section is scheduled to present (see syllabus for exact date). To commission early, all required information on the form titled Early Acceptance of Semester Project, found on the EG web site, must be approved, accepted, and signed by a TA. The deliverables received early are the ones you will use in your presentation. No adjustments to the deliverables commissioned will be accepted.

LIQUIDATED DAMAGES

If you do not complete all your deliverables and do not commission during the Final Presentation, you will incur liquidated damages as defined in the grading policy..

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