Difference between revisions of "OpenIGTLink/Protocol/JHUBRP"
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= System Diagram = | = System Diagram = | ||
<div class="center">[[Image:MRI_Robot_System_Diagram2.png]]</div> | <div class="center">[[Image:MRI_Robot_System_Diagram2.png]]</div> | ||
+ | Source code:<br /> svn co http://svn.na-mic.org/NAMICSandBox/trunk/OpenIGTjhu | ||
= Workflow = | = Workflow = | ||
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Bytes (Body) | Bytes (Body) | ||
58 62 66 70 74 78 82 | 58 62 66 70 74 78 82 | ||
− | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | + | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ |
− | | X | Y | Z | Ox | Oy | Oz | | + | | X | Y | Z | Ox | Oy | Oz | W | |
− | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | + | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ |
− | |||
= Set Workphase (Slicer -> Robot) = | = Set Workphase (Slicer -> Robot) = | ||
Line 77: | Line 77: | ||
== Command: MOVE_TO == | == Command: MOVE_TO == | ||
− | Parameters ( | + | Parameters (12+16 = 28 byte total): |
* Vector of three 32 bit floats (3x4): position X, Y, Z | * Vector of three 32 bit floats (3x4): position X, Y, Z | ||
* Vector of four 32 bit floats (4x4): orientation quaternion | * Vector of four 32 bit floats (4x4): orientation quaternion | ||
Line 140: | Line 140: | ||
== Query: GET_COORDINATE == | == Query: GET_COORDINATE == | ||
Parameters: none<br /> | Parameters: none<br /> | ||
− | Robot: Respond with current coordinate (position and orientation in global RAS coordinate system) | + | Robot: Respond with current coordinate (position and orientation in global RAS coordinate system) - 28 bytes |
== Query: GET_STATUS == | == Query: GET_STATUS == | ||
+ | '''This was moved to the generic header''' implemented by every device!<br /> | ||
Parameters: none<br /> | Parameters: none<br /> | ||
− | Robot: Respond with | + | Robot: Respond with STATUS packet |
== Query: GET_BIOPSY == | == Query: GET_BIOPSY == | ||
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* Vector of three 32 bit floats (3x4 bytes): position X, Y, Z | * Vector of three 32 bit floats (3x4 bytes): position X, Y, Z | ||
* Vector of four 32 bit floats (4x4 bytes): orientation quaternion | * Vector of four 32 bit floats (4x4 bytes): orientation quaternion | ||
− | * Three 32 bit floats (3x4 byte): needle offset (to calculate Depth from Z) | + | * Three 32 bit floats (3x4 byte): needle offset (to calculate Depth from Z) [X_offset, Y_offset, Z_offset + InsertionDepth] |
== Response: JOINTS == | == Response: JOINTS == |
Latest revision as of 14:49, 25 June 2008
Home < OpenIGTLink < Protocol < JHUBRP
Contents
- 1 System Diagram
- 2 Workflow
- 3 Open IGT Link Protocol
- 4 Set Workphase (Slicer -> Robot)
- 5 Command / Query (Slicer -> Robot)
- 5.1 Command: INITIALIZE
- 5.2 Command: SET_Z_FRAME
- 5.3 Command: MOVE_TO
- 5.4 Command: INSERT
- 5.5 Command: BIOPSY
- 5.6 Command: HOME
- 5.7 Command: STOP
- 5.8 Command: E_STOP
- 5.9 Command: SET_JOINT
- 5.10 Command: SET_VELOCITY
- 5.11 Command: SET_VOLTAGE_OUTPUT
- 5.12 Command: LOCK
- 5.13 Command: UNLOCK
- 5.14 Command: LOCK_AXIS
- 5.15 Command: UNLOCK_AXIS
- 5.16 Command: LIMIT_VELOCITY
- 5.17 Query: GET_COORDINATE
- 5.18 Query: GET_STATUS
- 5.19 Query: GET_BIOPSY
- 5.20 Query: GET_NR_JOINT
- 5.21 Query: GET_JOINT
- 5.22 Query: GET_VELOCITY
- 5.23 Query: GET_VOLTAGE_OUTPUT
- 5.24 Query: GET_JOINT_TRACK
- 5.25 Query: GET_BRAKE
- 5.26 Query: GET_MOVING
- 6 Responses sent by the robot (Robot -> Slicer)
- 7 Mimimum command set
System Diagram
Source code:
svn co http://svn.na-mic.org/NAMICSandBox/trunk/OpenIGTjhu
Workflow
- Scanner: Scout image acquisition with the landmark close to the prostate
- Navigation soft and scanner: Calculate Z-frame position, scan a slice through the Z-frame
- Repeat previous step if the Z-frame is not visible enough to register the robot
- Scanner: 3D volume acquisition of the prostate
- Navigation soft: Select (or import) the targets, show needle path, allow modification
- Navigation soft: Calculate the target and path, send it to the robot
- Robot: Execute command
- [Optional] Navigation soft: send current robot coordinates to the Real Time scanner IO for needle tracking, display image
- Navigation soft: Display robot position and status
- Scanner: Confirm robot location before biopsy
- Manual: Insert biopsy needle
- [Optional] Navigation soft: show Real time images of the needle insertion
- Manual: Fire biopsy gun
Open IGT Link Protocol
Some commands / queries are expecting parameters in the Body section which follows the Header Structure. The parameter can be:
- 8 bit Byte
- 32 bit Integer
- 32 bit Float
For example the Position and Orientation parameters in SET_Z_FRAME command will be the following.
Bytes (Body) 58 62 66 70 74 78 82 +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | X | Y | Z | Ox | Oy | Oz | W | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Set Workphase (Slicer -> Robot)
There are no parameters for this commands.
START_UP
Slicer: Send "START_UP" Workphase command
Robot: Initialize robot (INITIALIZE command) and respond with status message
PLANNING
Robot: Do nothing, respond with status
CALIBRATION
Robot: Do nothing, respond with status. Waiting for SET_Z_FRAME command (Z-Frame transformation).
TARGETING
Robot: Fail if Z-Frame was not set. Respond with status. Waiting for targets (MOVE command).
MANUAL
Robot: Engage breaks, responds with status.
Slicer sends "GetCoordinate" query periodically to update the display.
EMERGENCY
Robot: Responds with status
Command / Query (Slicer -> Robot)
Command: INITIALIZE
Parameters: none
Robot: Initialize, set the encoders, remember this position as "HOME". Respond with status.
Command: SET_Z_FRAME
Parameters (28 byte total):
- Vector of three 32 bit floats (3x4 byte): position X, Y, Z
- Vector of four 32 bit floats (4x4 byte): orientation quaternion - normalized!
Robot: Store Z-frame position and orientation (global RAS coordinate system) - respond with status.
Command: MOVE_TO
Parameters (12+16 = 28 byte total):
- Vector of three 32 bit floats (3x4): position X, Y, Z
- Vector of four 32 bit floats (4x4): orientation quaternion
Robot: Go to this coordinate - position, orientation (later: speed?)
Global RAS coordinate system).
Robot responds with status.
Command: INSERT
Parameters (4 byte): 32 bit float
Robot: Insert the needle to this depth - float (in mm)
Command: BIOPSY
Parameters: none
Robot: Take biopsy (Retract Cannula)
Command: HOME
Parameters: none
Robot: Go to Home (collapses the robot to remove/replace needle)
Command: STOP
Parameters: none
Robot: Stop moving
Command: E_STOP
Parameters: none
Robot: Emergency Stop (stop + purges the air lines)
Command: SET_JOINT
Parameters: a set of 32bit floats. The number of floats is BODY_SIZE/4.
Robot: Set Joint Positions - float[max.16] - move joint here
Command: SET_VELOCITY
Parameters: a set of 32bit floats. The number of floats is BODY_SIZE/4.
Robot: Set Joint Velocities - float[max.16] - move joint with this speed
Command: SET_VOLTAGE_OUTPUT
Parameters: a set of 32bit floats. The number of floats is BODY_SIZE/4.
Robot: sets the air pressure / voltage output
Command: LOCK
Parameters: none
Robot: Engage brakes - all of them
Command: UNLOCK
Parameters: none
Robot: Unlock - disengage all the brakes so the robot can be moved manually
Command: LOCK_AXIS
Parameters: one or more 32bit integers (BODY_SIZE/4)
Robot: Engage brakes on a give axis
Command: UNLOCK_AXIS
Parameters: one or more 32bit integers (BODY_SIZE/4)
Robot: Unlock - disengage the brakes on a give axis, so it can be moved manually
Command: LIMIT_VELOCITY
Parameters: one 32 bit float
Robot: Set entire robot velocity limit in Robot Coords. - float (like 10 mm/s)
Query: GET_COORDINATE
Parameters: none
Robot: Respond with current coordinate (position and orientation in global RAS coordinate system) - 28 bytes
Query: GET_STATUS
This was moved to the generic header implemented by every device!
Parameters: none
Robot: Respond with STATUS packet
Query: GET_BIOPSY
Parameters: none
Robot: Respond with Actual Insertion Depth
Query: GET_NR_JOINT
Parameters: none
Robot: Get Number of Joints - integer, see the description below
Query: GET_JOINT
Parameters: one or more 32bit integers (BODY_SIZE/4)
Robot: Get Actual Joint Positions
Query: GET_VELOCITY
Parameters: one or more 32bit integers (BODY_SIZE/4)
Robot: Get Actual Joint Velocities
Query: GET_VOLTAGE_OUTPUT
Parameters: one or more 32bit integers (BODY_SIZE/4)
Robot: Get Actual Air Pressures
Query: GET_JOINT_TRACK
Parameters: one or more 32bit integers (BODY_SIZE/4)
Robot: Get Actual Joint Tracking Errors
Query: GET_BRAKE
Parameters: none
Robot: Get Brakes status
Query: GET_MOVING
Parameters: none
Robot: Get Joint Moving status
Responses sent by the robot (Robot -> Slicer)
Status: STATUS
Response from Robot: Robot done moving, Error message, Emergency stop
See OpenIGTLink/Protocol#STATUS for description.
Status: BRAKES
Response from Robot: Brake status - boolean[max.16] - true(locked)/false(loose) for each joint
Structure: a number of bytes, defied by BODY_SIZE. 0 means false, 1 means true.
Status: DONE_MOVING
Response from Robot: Done moving/joint - boolean[max.16] - true/false for each joint Structure: a number of bytes, defied by BODY_SIZE. 0 means false, 1 means true.
Response: COORDINATES
Response from Robot: Actual coordinates and insertion depth - 6DOF in global RAS coordinate system
Structure (28 byte total):
- Vector of three 32 bit floats (3x4 bytes): position X, Y, Z
- Vector of four 32 bit floats (4x4 bytes): orientation quaternion
- Three 32 bit floats (3x4 byte): needle offset (to calculate Depth from Z) [X_offset, Y_offset, Z_offset + InsertionDepth]
Response: JOINTS
Response from Robot: Number of Joints - integer
Structure: one 32 bit integer (4 bytes total)
Response: JOINT_POS
Response from Robot: Actual joint positions - float[max.16] (joint positions in mm)
Structure: a set of 32bit floats. The number of floats is BODY_SIZE/4.
Response: JOINT_VEL
Response from Robot: Actual joint velocities - float[max.16] (joint velocities in mm/s)
Structure: a set of 32bit floats. The number of floats is BODY_SIZE/4.
Response: JOINT_TRACK
Response from Robot: Actual joint tracking error - float[max.16] - "actual joint position" - "set joint position"
Structure: a set of 32bit floats. The number of floats is BODY_SIZE/4.
Response: AIR_PRESSURE
Response from Robot: Actual air pressures - float[max.32] - two per joint! (PSI for each valve)
Structure: a set of 32bit floats. The number of floats is BODY_SIZE/4.
Mimimum command set
Command to the robot:
- START_UP Internally calls the INITIALIZE command.
- SET_Z_FRAME Stores the Z-Frame.
- TARGETING Just checks the Z-Frame values.
- MOVE_TO Repeat this command for each target.
- MANUAL Changes to Manual insertion. Switch back to automatic by calling TARGETING.
- INSERT Automatic insertion. Not yet implemented on the hardware.
- BIOPSY Takes the biopsy automatically, see INSERT.
- HOME Ex. after manual insertion to change the biopsy gun.
- EMERGENCY If something is wrong. To get out of this state START_UP needs to be called again.
- GET_COORDINATE Call this as often as needed to get the latest position of the robot.
- GET_STATUS Will respond with OK or other status - again, called often.
Response from the robot: