|home >||Bambino-A < Jet-Laser > Bamduino||4 April 2022|
|Jet-Laser by David Buckley||March 2013|
While laser cutting may be fine for architectural models it leaves precision to be desired when making 1.5 or 3mm holes So there was a lot of slop in the bearings. Perhaps with experimentation the fit would be better.
We fitted an Arduino and shield and took some photos but then the FabLab moved and later shut and the nameless person went off on another project so the Jets sat on the shelf for a while.
I was ill from the start of 2017 and couldn't walk and as something to do got down the Jets and fitted the Arduinos on top with the batteries on the feet which left the front free, I saw some 4-way IR obstacle sensors on the web which I thought would just fit on the front and ordered some and then put the Jets back on the shelf.
Jet Laser with sensors - 2021
It wasn't until the start of 2020 that I felt well again and during Covid-19 lockdown I modified the Bambino Arduino software to suit Jet, and then in March 2021 finally got around to fitting the 4-way IR obstacle sensors and also fitted an IR line sensor to each foot to detect drop-offs or even black lines. I also added a small PCB with a PicAxe08m2 and IR-receiver to receive commands from a Sony IR-HandController (see Jet08IR.bas).
Unfortunately while the red 4-way-IR modules fit nicely on Jet and look good they are no use as obstacle detectors because they are far too sensitive to any daylight from windows which swamps the IR-light returned from obstacles.
Jet PicAxe08m2 IR-board
2021-04-26 increased the chamfer on the back top corner of the rear legs so the tilt wire misses it at maximum stride.
The Jet Arduino software is based on the Bambino software which at the time consisted of a suite of 48 (now 53) programs sarting with setting the servos to a mid position, then flashing the LEDS (Jet doesn't have any), slowly building up step by step. So the Jet programs start at JA48_Do.
The Jets were fitted with a PicAxe08m2 (Jet08IR.bas) which can receive IR commands from a Sony handset so SoftSerial was added to receive the translated IR commands.
JA53_turnUS - 7 March 2022
Introducingcommands 't-', 't+', to turn to object or turn to open space (also as "ax" for IR use) commands 'a-', 'a+', to turn to object or turn to open space commands [^][-], [^][+] to turn to object or turn to open space
Introducing command 'a' to execute coded actions 'a1' beep, 'a2' whee, 'a3' whoa, 'a4' chatter make random sounds 'as','1'-'9' shuffle, 'ar','1'-'9' rock '*r', '*w' read and write any byte in EEPROM - for higher processor
Jet now fitted with 4way IR obstacle sensors, one on each foot and two on the body plus an IR line/drop-off sensor on each foot. 'bwf' - set stepping direction forwards in L and R, used in Reactions 'bwb' - set stepping direction backwards in L and R, used in Reactions
Introducing m - start of a mind } - end of a Mind m will give an ability for the robot to randomly change its mind depending on a probability level 1 - 9 where e.g. 7 will give 70% certainty of the commands in the mind being executed and 30% probability of them being skippped and execution continuing after the }. use - m4FFFVRRR}BBB. if a generated random number (1 - 9) is less than 4 then FFFVRRR will be skipped Help was getting long so it has been split into three parts - printHelpActs, printHelpBehaviour, printHelpSystem added constants rollbyScale, pacebyScale, turnbyScale used in BA49_Mind - bp,br,bt,printbehaviour, printbehaviours, Help39,varsCons previously was 2 embeded (Jet needs 4)
Introducing ( - start of a Do, a jump to an Act will on . continue in the Do will show its location in EEPROM when played. If a jump is made to an Act which contains another Do then that Do will not be implemented. ) - end of a Do will show its location in EEPROM when played Q or [Esc] to Quit all, needed to quit from Do b0 - reload current behaviour to RAM BeHaves