Difference between revisions of "Modules - Command Format"
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| + | - Stop response: "I:-1 S:''tag1'' D:''pos1'' ... S:''tagn'' D:''posn''" | ||
- Status response (verb=0): "I:0 S:''tag1'' D:''pos1'' ... S:''tagn'' D:''posn''" | - Status response (verb=0): "I:0 S:''tag1'' D:''pos1'' ... S:''tagn'' D:''posn''" | ||
- Status response (verb=1): "I:0 S:''tag1'' D:''pos1'' S:''tag1''vel D:''vel1'' S:''tag1''tar D:''tar1'' S:''tag1''stat I:''stat1'' ... | - Status response (verb=1): "I:0 S:''tag1'' D:''pos1'' S:''tag1''vel D:''vel1'' S:''tag1''tar D:''tar1'' S:''tag1''stat I:''stat1'' ... | ||
Revision as of 11:53, 26 June 2010
Module Standard v0.3 - Command Format
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| The intention of this standard is to keep internal coherence and compatability with RoboticsLab robot Modules which follow this standard (such as Asibot - Implemented Modules). It corresponds to Module Standard v0.3 and replaces v0.1 and v0.2. It is intended to be a description of module interfaces and data flow representation. Port interface is referred to TCP/UDP/MCAST/SHMEM cloud side, not CAN or USB (that can coexist in hardware-related modules). A referenced list of implemented modules should also be included. Be sure to check the Modules - Dependency Version page too. |
Nomenclature: D for double, I for integer, S for string.
Joint Motion Controllers (JMC)
These modules should recieve joint (q) commands. While any q is in movement, a callback should be a set up to be able to receive Stop or Status Poll command. On the other hand, the module should send a message when a command has been performed (w/ info on degree of accomplishment) or stopped.
Module: jmc_name
Port: name_q
In:
- Stop: "I:-1"
- Status poll: "I:0 (S:verb I:verb=0)"
- Absolute position: "I:1 S:tag1 D:pos1 ... S:tagn D:posn (S:vgen D:vgen=100)"
- Relative position: "I:2 S:tag1 D:pos1 ... S:tagn D:posn (S:vgen D:vgen=100)"
- Velocity: "I:3 S:tag1 D:vel1 ... S:tagn D:veln"
- Force: "I:4 S:tag1 D:amp1 ... S:tagn D:ampn"
- Syncronize: "I:5 S:tag1 D:vel1 ... S:tagn D:veln"
Out:
- Stop response: "I:-1 S:tag1 D:pos1 ... S:tagn D:posn"
- Status response (verb=0): "I:0 S:tag1 D:pos1 ... S:tagn D:posn"
- Status response (verb=1): "I:0 S:tag1 D:pos1 S:tag1vel D:vel1 S:tag1tar D:tar1 S:tag1stat I:stat1 ...
... S:tagn D:posn S:tagnvel D:veln S:tagntar D:tarn S:tagnstat I:statn"
Units: Degrees, Percentage of maximum degrees per second, Amperes Example Tags: q1, q2, q3, q4, q5, q6, q7
Implemented JMCs: jmc_rave: A module that instantiates a OpenRAVE kitchen with ASIBOT environment. read more... jmc_can:
Cartesian Motion Controllers (CMC)
Module: cmc_name
Port: name_x
In:
- Stop: "I:-1"
- Status poll: "I:0 (S:verb I:verb=0)"
- Absolute position (base): "I:1 S:tag1 D:pos1 ... S:tagn D:posn (S:vgen D:vgen=100)"
- Relative position (base): "I:2 S:tag1 D:pos1 ... S:tagn D:posn (S:vgen D:vgen=100)"
- End-effector position: "I:3 S:tag1 D:pos1 ... S:tagn D:posn (S:vgen D:vgen=100)"
- Velocity (base): "I:4 S:tag1 D:vel1 ... S:tagn D:veln"
- Velocity (end-effector): "I:5 S:tag1 D:vel1 ... S:tagn D:veln"
Out:
- Status response (verb=0): "I:0 S:tag1 D:pos1 ... S:tagn D:posn"
- Status response (verb=1): "I:0 S:tag1 D:pos1 S:tag1vel D:vel1 S:tag1tar D:tar1 S:tag1stat I:stat1 ...
... S:tagn D:posn S:tagnvel D:veln S:tagntar D:tarn S:tagnstat I:statn"
Example Tags: x, y, z, roll, pitch, yaw
Implemented CMCs: cmc_recursive: A CMC module based on recursive methods, such as Newton-Raphson. read more...
Sensors
Module: sns_name
Port: name_info In: - Status poll: "I:0" Out: - Status response: "I:0 S:tag1 D:value1 ... S:tagn D:valuen" Example Tags: accX, accY, accZ, gyrX, gyrY, gyrZ, magX, magY, magZ