1992: Difference between revisions

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{{Infobox Year
| bodystyle  = width:25em;
| year = 1992
| image  = [https://www.frcarchive.com/index.php?q=post/view/44952 https://www.frcarchive.com/index.php?q=thumb/44952.jpg]


| tag = [https://www.frcarchive.com/index.php?q=post/list/1992/1 1992]
| header20 = Game Information
| game_name = Maize Craze
| number_teams = 28
| number_events = 1
| header70 = {{#if:{{{winners|}}}|Awards}}
| chairman_winner      = [[frc191|191]]
| champions            = [[frc126|126]]
| finalists            = [[frc45|45]], [[frc111|111]], [[frc190|190]]
| prevyear = [[1991]]
| nextyear = [[1993]]
| image2    = {{{altlogo|}}}
| caption2  = {{{altlogocaption|}}}
}}
The inaugural 1992 FIRST Robotics Competition season formally began on January 3rd, 1992 with a [[kickoff]] event in New Hampshire where sponsors were given a [[kit of parts]] and the rules for the game. Sponsors partnered with local schools to build a robot to compete at the [[1992cmp|1992 FIRST Robotics Competition]] on February 13 and 14th.
Before becoming known as the FIRST Robotics Competition, Maize Craze was billed as part of "FIRST Encounters," somewhat similar to previous FIRST programs like [[FIRST Points]].
After the competition, the machines were to become property of FIRST. Extra kit components and the dot-matrix printer were also supposed to be returned to FIRST. The kit of parts included t-shirts from Russel Athletics to be worn at the competition, which teams customized with their school and sponsor names and logos.
==Documentation==
===Game manual===
<pdf>https://www.frcarchive.com/frcwiki/images/1/1d/1992_Game_Manual.pdf</pdf>{{TKHref}}
===Other documentation===
[https://www.frcarchive.com/frcwiki/index.php/File:1992_Post_Event_Letter.PDF Post event letter]<ref name=tkh />
==Playing field and scoring==
<gallery perrow=4 heights=250px widths=240px>
File:44978 - 1992 game materials.png|The playing field (not to scale)[https://www.frcarchive.com/index.php?q=post/view/44978]
File:44979 - 1992 game materials.png|Field drawing with dimensions, locations of posts and balls, and home bases [https://www.frcarchive.com/index.php?q=post/view/44979]
File:1439 - 1992 1992cmp frc151 match.jpg|Tennis balls being set up before the beginning of a match [https://www.frcarchive.com/index.php?q=post/view/1439]
File:45573 - 1991 1992 robot.jpg|[[1991 Test Game|Late 1991 test game]] setup where the balls started in pyramids around the field [https://www.frcarchive.com/index.php?q=post/view/45573]
</gallery>
The playing field is comprised of a 16 foot square plywood surface 2 1/2 feet off the ground and covered in 1 to 2 inches of whole kernel corn. An 8 inch tall Plexiglass rim forms the perimeter of the field, and the plywood and Plexiglass are marked with each team's 20 inch square home base centered on each side of the field. Five 2 inch diameter PVC pipes are located around the field, with one 12 inch tall section in the middle of the field and four more located nine inches in from adjacent walls of the field.
155 tennis balls representing "treasure" are spread around the field. 150 one-point balls begin in the center of the field centered around a 12 inch post with one of the orange 25 point balls on top. Two more orange 25 point balls start on the two taller 36 inch posts in opposite corners of the playing field, with two two-tone 10 point balls starting on the top of 24 inch posts in the other opposing corners.
Matches last for two minutes in which four robots attempt to pick up and transport balls back to their own home base. Robots must start the match inside the home base and within the maximum size limitation, but can expand outwards after the start of the match. Tennis balls located within a team's home base at the end of the match are counted and scored. Teams played in the red, white, blue, and green starting positions. The control system umbilicals were color-coded to ensure teams plugged their robots into the controls for their position.
Although the manual originally outlined a 25 foot tall structure around the field to support the control system umbilicals, in practice the umbilicals were dropped down from the gym ceiling at the [[1992cmp|competition]].
[[1991 Test Game|An early version of Maize Craze tested in late 1991]] had the treasure starting in several pyramids around the field, with no central 25 point ball.
===Game strategy===
<gallery perrow=4 heights=250px widths=250px>
File:1400 - 1992 2004 2004bc frc126 frc190 match robot.jpg|[[frc190|Team 190]] and [[frc126|team 126]]'s robots at [[2004bc|BattleCry 2004]] [https://www.frcarchive.com/index.php?q=post/view/1401]
File:1396 - 1992 1992cmp frc45 robot.jpg|[[frc45|Team 45]]'s robot in front of its static home base structure loaded with a delivery of "treasure" [https://www.frcarchive.com/index.php?q=post/view/1396]
File:1423 - 1992 1992cmp frc-115 frc-5 frc146 match robot.jpg|[[frc-5|Team -5]]'s robot extended outward into the middle of the field [https://www.frcarchive.com/index.php?q=post/view/1423]
File:43422 - 1992 1992cmp frc111 match robot.png|[[frc111|Team 111]]'s robot with a front scoop and a basket that extended up the PVC poles to collect the colored balls from below [https://www.frcarchive.com/index.php?q=post/view/43422]
</gallery>
In general, teams had to decide whether to focus on collecting as many of the central balls as possible or go for the outer balls. The central 25 point ball could be knocked off its post and picked up like the one point balls. Scoops that lifted into a large open ball collection area in the robot were fairly common and effective. Mechanisms for picking up the balls from the PVC pipes often located themselves further down the PVC pipe and then extended upwards to collect the ball from below.
Because balls needed to be in a team's home base at the end of the match, robots would at some point make a "mad dash" back to their base. Some machines included a static base or unmoving component of their robot that could securely hold balls in their home bases. Machines that could deposit balls could do so early and then focus on preventing an opponent from making it back to their base as a defensive maneuver. Tipping an opponent's robot was allowed, but mechanisms designed to intentionally damage other robots were not allowed.
[[frc126|Team 126]]'s winning robot had a drivetrain consisting of twelve thin discs, six on each of two axles at the front and rear of the machine. As the robot ran over balls, the discs would flex and allow tennis balls to accumulate between the discs in round cutouts. The more balls collected, the more additional traction they provided for the machine. An extendable cage could ride up the PVC pipes and collect the higher-point balls. In round two of the finals, teams [[frc111|111]] and [[frc45|45]] both attempted to push the NY-alator out of scoring position in the last 30 seconds of the match.
==Robot construction==
<gallery perrow=3 heights=250px widths=300px>
File:1477 - 1992 kit of parts.jpg|The 1992 kit of parts [https://www.frcarchive.com/index.php?q=post/view/1477]
</gallery>
Robots were primarily constructed from materials in the [[kit of parts]] as well as up to $200 worth of materials from [[Small Parts]]. Additional fasteners, lubricants, and nonfunctional decorations were also allowed. Robots had to fit unconstrained in a 38 cm by 50 cm by 34 cm starting configuration. These are the dimensions for the largest rectangular solid that can fit inside the Rubbermaid container the kit of parts came in. Robots could not weigh more than 11 kg (24.2 lbs) and needed to clearly display their sponsor and school names to be identifiable during a match.
The kit contained a variety of aluminum, plastic, and wood sheets, rods, PVC, springs, fasteners, and other raw materials. A series of prefabricated sprockets and gears were also included. The dot-matrix printer could be disassembled and used but it's electrical components could not be wired into the control system. Unless purchased from Small Parts, any wheels or mechanism components had to be machined from the raw kit components. Many robots used large, spindley wheels to maneuver the corn, with traction being a major issue for some machines.
===Control system===
<gallery perrow=4 heights=250px widths=250px>
File:44982 - 1992 control system game materials.png|The two controller boxes with the wiring diagram for the umbilical [https://www.frcarchive.com/index.php?q=post/view/44982]
File:44981 - 1992 game materials.png|Diagram showing the length of the umbilical [https://www.frcarchive.com/index.php?q=post/view/44981]
File:1413 - 1992 frc20 robot.jpg|The umbilical connector on the right side of [[frc20|team 20]]'s 1992 robot [https://www.frcarchive.com/index.php?q=post/view/1413]
File:1551 - 1992 1992cmp frc-11 frc-78 frc-9 frc-99 frc148 frc190 match robot video.gif|Power being turned on at the beginning of a match [https://www.frcarchive.com/index.php?q=post/view/1551]
</gallery>
Unlike every year since, the 1992 control system was not wireless and offered no proportional control of motors. Four thick "umbilicals" were suspended above the field and connected the driver's controls to the robot.
Two controllers with two double pole, double throw switches allowed the two driver-operators to control full-speed forward and reverse control of two motors each. 12 volt power supplies rated for 10 amps were wired directly into the two controllers and then up and back down the umbilical cords to the machines. Each switch would connect power from the power supplies directly to the motor wired to it's matching pins on the machine. Robots needed the matching connector for the umbilical in a position where it could be easily plugged and unplugged, and motors needed to be wired to specific pins to tie motor movement to the controller switches. Umbilical cables measured 23' 10" from the point at which they are suspended, meaning they would go taut towards the edges of the field while falling slack towards the center as well as tangling with the robots and each other. Controllers and tether connectors were color-coded with tape to keep track of which controllers controlled which tether.
Available motors included two larger Delco motors, typically used in the drivetrain, and smaller Portescap gearmotors typically used in mechanisms. A 9-volt battery could also be used to power components of the robot as long as they did not cause tennis balls to move after the end of a match.
==Team list==
{{TeamListHeader
|lowerCaption = More information about pre-1998 team numbers is available [[Old team numbers|here]].
}}
{{1992frc-3}}
{{1992frc-4}}
{{1992frc-5}}
{{1992frc-8}}
{{1992frc-11}}
{{1992frc-108}}
{{1992frc157}}
{{1992frc-13}}
{{1992frc45}}
{{1992frc-99}}
{{1992frc151}}
{{1992frc-16}}
{{1992frc97}}
{{1992frc-20}}
{{1992frc-21}}
{{1992frc146}}
{{1992frc-51}}
{{1992frc-89}}
{{1992frc111}}
{{1992frc-25}}
{{1992frc131}}
{{1992frc126}}
{{1992frc99}}
{{1992frc20}}
{{1992frc-115}}
{{1992frc-78}}
{{1992frc190}}
{{1992frc191}}
{{TeamListFooter}}
==Official events==
==News and unofficial media==
[https://www.frcarchive.com/frcwiki/index.php/File:1992_FIRST-compiled_News.PDF FIRST-compiled news articles]<ref name=tkh /><br>
[https://www.frcarchive.com/frcwiki/index.php/File:1992_April_20_Design_News.PDF Design News (April 20, 1992)]<ref name=tkh /><br>
[https://www.frcarchive.com/frcwiki/index.php/File:1992_March_Circuit.pdf Circuit (March 1992)]<ref name=tkh /><br>
[https://archive.org/details/wpijournal9596worc/page/n79/mode/2up WPI Journal (Spring 1992)]<br>
[https://www.frcarchive.com/frcwiki/index.php/File:1992_Summer_Electron_Magazine.PDF Electron Magazine (Summer 1992)]<ref name=tkh /><br>
[https://www.frcarchive.com/frcwiki/index.php/File:1992_December_13_The_Boston_Globe.pdf The Boston Globe (December 13, 1992)]<ref name=tkh /><br>
[https://archive.org/details/MIT-Technology-Review-1993-02/page/n17/mode/2up MIT Technology Review (February/March 1993)]<br>
==Notes==
<references />

Latest revision as of 23:47, 20 March 2025

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