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ERS220Info Namespace Reference

Detailed Description

Contains information about the ERS-220 Robot, such as number of joints, PID defaults, timing information, etc.


LED Bitmasks

Bitmasks for use when specifying combinations of LEDs (see LedEngine ) Note that left/right are robot's point of view

typedef unsigned int LEDBitMask_t
 So you can be clear when you're refering to a LED bitmask.
const LEDBitMask_t FaceFrontLeftLEDMask = 1<<(FaceFrontLeftLEDOffset-LEDOffset)
 So you can be clear when you're refering to a LED bitmask.
const LEDBitMask_t FaceFrontRightLEDMask = 1<<(FaceFrontRightLEDOffset-LEDOffset)
 So you can be clear when you're refering to a LED bitmask.
const LEDBitMask_t FaceCenterLeftLEDMask = 1<<(FaceCenterLeftLEDOffset-LEDOffset)
 So you can be clear when you're refering to a LED bitmask.
const LEDBitMask_t FaceCenterRightLEDMask = 1<<(FaceCenterRightLEDOffset-LEDOffset)
 So you can be clear when you're refering to a LED bitmask.
const LEDBitMask_t FaceBackLeftLEDMask = 1<<(FaceBackLeftLEDOffset-LEDOffset)
 So you can be clear when you're refering to a LED bitmask.
const LEDBitMask_t FaceBackRightLEDMask = 1<<(FaceBackRightLEDOffset-LEDOffset)
 So you can be clear when you're refering to a LED bitmask.
const LEDBitMask_t ModeLEDMask = 1<<(ModeLEDOffset-LEDOffset)
 So you can be clear when you're refering to a LED bitmask.
const LEDBitMask_t BackLeft1LEDMask = 1<<(BackLeft1LEDOffset-LEDOffset)
 So you can be clear when you're refering to a LED bitmask.
const LEDBitMask_t BackLeft2LEDMask = 1<<(BackLeft2LEDOffset-LEDOffset)
 So you can be clear when you're refering to a LED bitmask.
const LEDBitMask_t BackLeft3LEDMask = 1<<(BackLeft3LEDOffset-LEDOffset)
 So you can be clear when you're refering to a LED bitmask.
const LEDBitMask_t BackRight3LEDMask = 1<<(BackRight3LEDOffset-LEDOffset)
 So you can be clear when you're refering to a LED bitmask.
const LEDBitMask_t BackRight2LEDMask = 1<<(BackRight2LEDOffset-LEDOffset)
 So you can be clear when you're refering to a LED bitmask.
const LEDBitMask_t BackRight1LEDMask = 1<<(BackRight1LEDOffset-LEDOffset)
 So you can be clear when you're refering to a LED bitmask.
const LEDBitMask_t TailLeftLEDMask = 1<<(TailLeftLEDOffset-LEDOffset)
 So you can be clear when you're refering to a LED bitmask.
const LEDBitMask_t TailCenterLEDMask = 1<<(TailCenterLEDOffset-LEDOffset)
 So you can be clear when you're refering to a LED bitmask.
const LEDBitMask_t TailRightLEDMask = 1<<(TailRightLEDOffset-LEDOffset)
 So you can be clear when you're refering to a LED bitmask.
const LEDBitMask_t FaceFrontBLEDMask = 1<<(FaceFrontBLEDOffset-LEDOffset)
 So you can be clear when you're refering to a LED bitmask.
const LEDBitMask_t FaceFrontALEDMask = 1<<(FaceFrontALEDOffset-LEDOffset)
 So you can be clear when you're refering to a LED bitmask.
const LEDBitMask_t FaceFrontCLEDMask = 1<<(FaceFrontCLEDOffset-LEDOffset)
 So you can be clear when you're refering to a LED bitmask.
const LEDBitMask_t RetractableHeadLEDMask = 1<<(RetractableHeadLEDOffset-LEDOffset)
 So you can be clear when you're refering to a LED bitmask.
const LEDBitMask_t BotLLEDMask = 1<<(BotLLEDOffset-LEDOffset)
 bottom left (red - sad)
const LEDBitMask_t BotRLEDMask = 1<<(BotRLEDOffset-LEDOffset)
 bottom right (red - sad)
const LEDBitMask_t MidLLEDMask = 1<<(MidLLEDOffset-LEDOffset)
 middle left (green - happy)
const LEDBitMask_t MidRLEDMask = 1<<(MidRLEDOffset-LEDOffset)
 middle right (green - happy)
const LEDBitMask_t TopLLEDMask = 1<<(TopLLEDOffset-LEDOffset)
 top left (red - angry)
const LEDBitMask_t TopRLEDMask = 1<<(TopRLEDOffset-LEDOffset)
 top right (red - angry)
const LEDBitMask_t TopBrLEDMask = 1<<(TopBrLEDOffset-LEDOffset)
 top bar (green)
const LEDBitMask_t TlRedLEDMask = 1<<(TlRedLEDOffset-LEDOffset)
 red tail light
const LEDBitMask_t TlBluLEDMask = 1<<(TlBluLEDOffset-LEDOffset)
 blue tail light
const LEDBitMask_t FaceLEDMask
 LEDs for face.
const LEDBitMask_t HeadLEDMask = FaceLEDMask | RetractableHeadLEDMask
 LEDs on head (face plus retractable light).
const LEDBitMask_t BackLEDMask
 LEDs on back.
const LEDBitMask_t TailLEDMask
 LEDs for tail.
const LEDBitMask_t AllLEDMask = (LEDBitMask_t)~0
 selects all of the leds

Output Offsets

Corresponds to entries in ERS220Info::PrimitiveName, defined at the end of this file

enum  LegOffset_t { LFrLegOffset = LegOffset+LFrLegOrder*JointsPerLeg, RFrLegOffset = LegOffset+RFrLegOrder*JointsPerLeg, LBkLegOffset = LegOffset+LBkLegOrder*JointsPerLeg, RBkLegOffset = LegOffset+RBkLegOrder*JointsPerLeg }
 The offsets of the individual legs. More...
const unsigned PIDJointOffset = 0
 The beginning of the PID Joints.
const unsigned LegOffset = PIDJointOffset
 the offset of the beginning of the leg joints
const unsigned HeadOffset = LegOffset+NumLegJoints
 the offset of the beginning of the head joints
const unsigned LEDOffset = PIDJointOffset + NumPIDJoints
 the offset of LEDs in WorldState::outputs and MotionCommand functions
const unsigned BinJointOffset = NumOutputs
 The beginning of the binary joints.
const unsigned BaseFrameOffset = NumOutputs
 Use with kinematics to refer to base reference frame.
const unsigned PawFrameOffset = BaseFrameOffset+1
 Use with kinematics to refer to paw reference frames (add appropriate LegOrder_t to specify which paw).
const unsigned CameraFrameOffset = PawFrameOffset+NumLegs
 Use with kinematics to refer to camera reference frame.
const unsigned IRFrameOffset = CameraFrameOffset+1
 Use with kinematics to refer to infrared (distance) sensor reference frame.

Input Offsets

The order in which inputs should be stored

enum  ButtonOffset_t {
  LFrPawOffset = LFrLegOrder, RFrPawOffset = RFrLegOrder, LBkPawOffset = LBkLegOrder, RBkPawOffset = RBkLegOrder,
  ChinButOffset = 4, BackButOffset, HeadFrButOffset, HeadButOffset = HeadFrButOffset,
  HeadBkButOffset, TailLeftButOffset, TailCenterButOffset, TailRightButOffset
}
 holds offsets to different buttons in WorldState::buttons[] More...
enum  SensorOffset_t {
  IRDistOffset = 0, BAccelOffset, LAccelOffset, DAccelOffset,
  ThermoOffset, PowerRemainOffset, PowerThermoOffset, PowerCapacityOffset,
  PowerVoltageOffset, PowerCurrentOffset
}
 holds offset to different sensor values in WorldState::sensors[] More...
const char *const buttonNames [NumButtons]
 Provides a string name for each button.
const char *const sensorNames [NumSensors]
 Provides a string name for each sensor.

Output Types Information

Right now all binary joints are slow, but perhaps this won't always be the case... hence the IsFast/Slow bitmasks to select which type, in order to be more general

const unsigned JointsPerLeg = 3
 The number of joints per leg.
const unsigned NumLegs = 4
 The number of legs.
const unsigned NumLegJoints = JointsPerLeg*NumLegs
 the TOTAL number of joints on ALL legs
const unsigned NumHeadJoints = 3
 The number of joints in the neck.
const unsigned NumTailJoints = 0
 The number of joints assigned to the tail.
const unsigned NumMouthJoints = 0
 the number of joints that control the mouth
const unsigned NumEarJoints = 0
 The number of joints which control the ears (NOT per ear, is total).
const unsigned NumButtons = 11
 the number of buttons that are available, see ERS220Info::ButtonOffset_t
const unsigned NumSensors = 1+3+1+5
 1 dist, 3 accel, 1 thermo, 5 from power, see ERS220Info::SensorOffset_t
const unsigned NumLEDs = 20
 The number of LEDs which can be controlled.
const unsigned NumPIDJoints = NumLegJoints+NumHeadJoints+NumTailJoints+NumMouthJoints
 The number of joints which use PID motion - everything.
const unsigned NumBinJoints = NumEarJoints
 The number of binary joints - just the ears (which the 220 doesn't have).
const unsigned NumOutputs = NumPIDJoints + NumBinJoints + NumLEDs
 the total number of outputs
const unsigned NumReferenceFrames = NumOutputs + 1 + NumLegs + 1 + 1
 for the base, paw, camera, and IR sensor reference frames
const float CameraHorizFOV = 57.6/180*M_PI
 horizontal field of view (radians)
const float CameraVertFOV = 47.8/180*M_PI
 vertical field of view (radians)
const float CameraFOV = CameraHorizFOV
 should be set to maximum of CameraHorizFOV or CameraVertFOV
const unsigned int CameraResolutionX = 176
 the number of pixels available in the 'full' layer
const unsigned int CameraResolutionY = 144
 the number of pixels available in the 'full' layer
const float BallOfFootRadius = 27.922/2
 radius of the ball of the foot
const float CylinderOfFootRadius = 24.606/2
 radius of the cylinder of the foot
const bool IsFastOutput [NumOutputs]
 true for joints which can be updated every 32 ms (true for all)
const bool IsRealERS220 [NumOutputs]
 we need this so you can tell programmatically which joints are "real" and which are "fake" in ERS-2xx target mode

CPC IDs

values defined by OPEN-R, used to interface with lower level OPEN-R code to read sensors - DOESN'T correspond to ERS220Info::PrimitiveName

static const int CPCJointNeckTilt = 0
static const int CPCJointNeckPan = 1
static const int CPCJointNeckRoll = 2
static const int CPCSensorPSD = 3
static const int CPCSensorHeadBackPressure = 4
static const int CPCSensorHeadFrontPressure = 5
static const int CPCSensorChinSwitch = 6
static const int CPCJointLFRotator = 7
static const int CPCJointLFElevator = 8
static const int CPCJointLFKnee = 9
static const int CPCSensorLFPaw = 10
static const int CPCJointLHRotator = 11
static const int CPCJointLHElevator = 12
static const int CPCJointLHKnee = 13
static const int CPCSensorLHPaw = 14
static const int CPCJointRFRotator = 15
static const int CPCJointRFElevator = 16
static const int CPCJointRFKnee = 17
static const int CPCSensorRFPaw = 18
static const int CPCJointRHRotator = 19
static const int CPCJointRHElevator = 20
static const int CPCJointRHKnee = 21
static const int CPCSensorRHPaw = 22
static const int CPCSensorThermoSensor = 23
static const int CPCSensorBackSwitch = 24
static const int CPCSensorTailLeftSwitch = 25
static const int CPCSensorTailCenterSwitch = 26
static const int CPCSensorTailRightSwitch = 27
static const int CPCSensorAccelFB = 28
static const int CPCSensorAccelLR = 29
static const int CPCSensorAccelUD = 30

Enumerations

enum  LEDOffset_t {
  FaceFrontLeftLEDOffset = LEDOffset, FaceFrontRightLEDOffset, FaceCenterLeftLEDOffset, FaceCenterRightLEDOffset,
  FaceBackLeftLEDOffset, FaceBackRightLEDOffset, ModeLEDOffset, BackLeft1LEDOffset,
  BackLeft2LEDOffset, BackLeft3LEDOffset, BackRight3LEDOffset, BackRight2LEDOffset,
  BackRight1LEDOffset, TailLeftLEDOffset, TailCenterLEDOffset, TailRightLEDOffset,
  FaceFrontBLEDOffset, FaceFrontALEDOffset, FaceFrontCLEDOffset, RetractableHeadLEDOffset,
  BotLLEDOffset = FaceFrontLeftLEDOffset, BotRLEDOffset = FaceFrontRightLEDOffset, MidLLEDOffset = FaceCenterLeftLEDOffset, MidRLEDOffset = FaceCenterRightLEDOffset,
  TopLLEDOffset = FaceBackLeftLEDOffset, TopRLEDOffset = FaceBackRightLEDOffset, TopBrLEDOffset = ModeLEDOffset, TlBluLEDOffset = TailLeftLEDOffset,
  TlRedLEDOffset = TailRightLEDOffset
}
 The offsets of the individual LEDs on the head and tail. Note that left/right are robot's point of view. See also LEDBitMask_t. More...

Variables

const char *const RobotName = "ERS-220"
 the name of the model, to be used for logging and remote GUIs
const unsigned int FrameTime = 8
 time between frames in the motion system (milliseconds)
const unsigned int NumFrames = 4
 the number of frames per buffer (don't forget also double buffered)
const unsigned int SlowFrameTime = 128
 time between frames for the ears (which move slower for some reason, don't want to mix with other outputs) (milliseconds)
const unsigned int NumSlowFrames = 1
 the number of frames per buffer being sent to ears (double buffered as well)
const unsigned int SoundBufferTime = 32
 the number of milliseconds per sound buffer... I'm not sure if this can be changed
const unsigned outputNameLen = 9
 The length of the strings used for each of the outputs in outputNames (doesn't include null term).
const char *const outputNames [NumOutputs]
 A name of uniform length for referring to joints - handy for posture files, etc.
const char *const PrimitiveName [NumOutputs]
 the joint identifier strings used to refer to specific joints in OPEN-R (but not needed for others)
const char *const SpeakerLocator = "PRM:/r1/c1/c2/c3/s1-Speaker:S1"
 use to open speaker connectio with the system
const char *const CameraLocator = "PRM:/r1/c1/c2/c3/i1-FbkImageSensor:F1"
 use to open camera connection with the system
const float DefaultPIDs [NumPIDJoints][3]
 This table holds the default PID values for each joint. see PIDMC.
const unsigned char DefaultPIDShifts [3] = {0x0E, 0x02, 0x0F}
 These will control the shift values given to the system. see PIDMC.
const float MaxOutputSpeed [NumOutputs]
 These values are Sony's recommended maximum joint velocities, in rad/ms.
const double outputRanges [NumOutputs][2]
 This table holds the software limits of each of the outputs.
const double mechanicalLimits [NumOutputs][2]
 This table holds the mechanical limits of each of the outputs.

Enumeration Type Documentation

enum ERS220Info::LegOffset_t

The offsets of the individual legs.

Enumerator:
LFrLegOffset  beginning of left front leg
RFrLegOffset  beginning of right front leg
LBkLegOffset  beginning of left back leg
RBkLegOffset  beginning of right back leg

Definition at line 121 of file ERS220Info.h.

enum ERS220Info::LEDOffset_t

The offsets of the individual LEDs on the head and tail. Note that left/right are robot's point of view. See also LEDBitMask_t.

Enumerator:
FaceFrontLeftLEDOffset  head face side light (front left - blue)
FaceFrontRightLEDOffset  head face side light (front right - blue)
FaceCenterLeftLEDOffset  head face side light (center left - blue)
FaceCenterRightLEDOffset  head face side light (center right - blue)
FaceBackLeftLEDOffset  head face side light (back left - red)
FaceBackRightLEDOffset  head face side light (back right - red)
ModeLEDOffset  mode indicator (back of the head - orange)
BackLeft1LEDOffset  back multi-indicator (left #1 - blue)
BackLeft2LEDOffset  back multi-indicator (left #2 - blue)
BackLeft3LEDOffset  back multi-indicator (left #3 - blue)
BackRight3LEDOffset  back multi-indicator (right #3 - blue)
BackRight2LEDOffset  back multi-indicator (right #2 - blue)
BackRight1LEDOffset  back multi-indicator (right #1 - blue)
TailLeftLEDOffset  tail light (left - blue)
TailCenterLEDOffset  tail light (center - red)
TailRightLEDOffset  tail light (right - blue)
FaceFrontBLEDOffset  face front light B (blue)
FaceFrontALEDOffset  face front light A (blue)
FaceFrontCLEDOffset  face front light C (red)
RetractableHeadLEDOffset  retractable head light
BotLLEDOffset  bottom left (red - sad) (ERS-210)
BotRLEDOffset  bottom right (red - sad) (ERS-210)
MidLLEDOffset  middle left (green - happy) (ERS-210)
MidRLEDOffset  middle right (green - happy) (ERS-210)
TopLLEDOffset  top left (red - angry) (ERS-210)
TopRLEDOffset  top right (red - angry) (ERS-210)
TopBrLEDOffset  top bar (green) (ERS-210)
TlBluLEDOffset  blue tail light (ERS-210)
TlRedLEDOffset  red tail light (ERS-210)

Definition at line 131 of file ERS220Info.h.

enum ERS220Info::ButtonOffset_t

holds offsets to different buttons in WorldState::buttons[]

Should be a straight mapping to the ButtonSourceIDs

Note that the chest (power) button is not a normal button. It kills power to the motors at a hardware level, and isn't sensed in the normal way. If you want to know when it is pressed (and you are about to shut down) see PowerSourceID::PauseSID.

See also:
WorldState::buttons

ButtonSourceID_t

Enumerator:
HeadFrButOffset  for the "antenna" - this is <.2 if pushed back all the way
HeadButOffset  for ERS-7 compatibility
HeadBkButOffset  for the "antenna" - this is >.98 if pulled forward, <.2 if pushed back partly

Definition at line 254 of file ERS220Info.h.

enum ERS220Info::SensorOffset_t

holds offset to different sensor values in WorldState::sensors[]

See also:
WorldState::sensors[]
Enumerator:
IRDistOffset  in millimeters
BAccelOffset  backward acceleration, in $m/s^2$, negative if sitting on butt (positive for faceplant)
LAccelOffset  acceleration to the robot's left, in $m/s^2$, negative if lying on robot's left side
DAccelOffset  downward acceleration, in $m/s^2$, negative if standing up... be careful about the signs on all of these...
ThermoOffset  in degrees Celcius
PowerRemainOffset  percentage, 0-1
PowerThermoOffset  degrees Celcius
PowerCapacityOffset  milli-amp hours
PowerVoltageOffset  volts
PowerCurrentOffset  milli-amp negative values (maybe positive while charging?)

Definition at line 278 of file ERS220Info.h.

Variable Documentation

const bool ERS220Info::IsFastOutput[NumOutputs]

Initial value:

 {
    
    true, true, true,
    true, true, true,
    true, true, true,
    true, true, true,
    true, true, true,
    
    true, true, true,           
    true, true, true,           
    true,                       
    true, true, true,           
    true, true, true,           
    true, true, true,           
    true, true, true,           
    true,                       
    
  }
true for joints which can be updated every 32 ms (true for all)

Definition at line 60 of file ERS220Info.h.

const bool ERS220Info::IsRealERS220[NumOutputs]

Initial value:

 {
    
    true, true, true,
    true, true, true,
    true, true, true,
    true, true, true,
    true, true, true,
    
    true, true, true,           
    true, true, true,           
    true,                       
    true, true, true,           
    true, true, true,           
    true, true, true,           
    true, true, true,           
    true,                       
    
  }
we need this so you can tell programmatically which joints are "real" and which are "fake" in ERS-2xx target mode

Definition at line 80 of file ERS220Info.h.

const LEDBitMask_t ERS220Info::FaceLEDMask

Initial value:

 FaceFrontLeftLEDMask
  | FaceFrontRightLEDMask
  | FaceCenterLeftLEDMask
  | FaceCenterRightLEDMask
  | FaceBackLeftLEDMask
  | FaceBackRightLEDMask
  | FaceFrontALEDMask
  | FaceFrontBLEDMask
  | FaceFrontCLEDMask
  | ModeLEDMask
LEDs for face.

Definition at line 202 of file ERS220Info.h.

const LEDBitMask_t ERS220Info::BackLEDMask

Initial value:

 BackLeft1LEDMask
  | BackLeft2LEDMask
  | BackLeft3LEDMask
  | BackRight1LEDMask
  | BackRight2LEDMask
  | BackRight3LEDMask
LEDs on back.

Definition at line 219 of file ERS220Info.h.

const LEDBitMask_t ERS220Info::TailLEDMask

Initial value:

 TailLeftLEDMask
  | TailCenterLEDMask
  | TailRightLEDMask
LEDs for tail.

Definition at line 228 of file ERS220Info.h.

const char* const ERS220Info::buttonNames[NumButtons]

Initial value:

 {
    "LFrPaw","RFrPaw","LBkPaw","RBkPaw",
    "ChinBut","BackBut","HeadFrBut","HeadBkBut",
    "TailLeftBut","TailCenterBut","TailRightBut"
  }
Provides a string name for each button.

Definition at line 270 of file ERS220Info.h.

const char* const ERS220Info::sensorNames[NumSensors]

Initial value:

 {
    "IRDist",
    "BAccel","LAccel","DAccel",
    "Thermo",
    "PowerRemain","PowerThermo","PowerCapacity","PowerVoltage","PowerCurrent"
  }
Provides a string name for each sensor.

Definition at line 292 of file ERS220Info.h.

const char* const ERS220Info::PrimitiveName[NumOutputs]

Initial value:

 {
    "PRM:/r2/c1-Joint2:j1",       
    "PRM:/r2/c1/c2-Joint2:j2",    
    "PRM:/r2/c1/c2/c3-Joint2:j3", 
    "PRM:/r4/c1-Joint2:j1",       
    "PRM:/r4/c1/c2-Joint2:j2",    
    "PRM:/r4/c1/c2/c3-Joint2:j3", 
    
    "PRM:/r3/c1-Joint2:j1",       
    "PRM:/r3/c1/c2-Joint2:j2",    
    "PRM:/r3/c1/c2/c3-Joint2:j3", 
    "PRM:/r5/c1-Joint2:j1",       
    "PRM:/r5/c1/c2-Joint2:j2",    
    "PRM:/r5/c1/c2/c3-Joint2:j3", 

    "PRM:/r1/c1-Joint2:j1",       
    "PRM:/r1/c1/c2-Joint2:j2",    
    "PRM:/r1/c1/c2/c3-Joint2:j3", 
        
    "PRM:/r1/c1/c2/c3/l1-LED2:l1", 
    "PRM:/r1/c1/c2/c3/l4-LED2:l4", 
    "PRM:/r1/c1/c2/c3/l2-LED2:l2", 
    "PRM:/r1/c1/c2/c3/l5-LED2:l5", 
    "PRM:/r1/c1/c2/c3/l3-LED2:l3", 
    "PRM:/r1/c1/c2/c3/l6-LED2:l6", 
    "PRM:/r1/c1/c2/c3/l7-LED2:l7", 
    
    "PRM:/r6/l1-LED2:l1", 
    "PRM:/r6/l2-LED2:l2", 
    "PRM:/r6/l3-LED2:l3", 
    "PRM:/r6/l4-LED2:l4", 
    "PRM:/r6/l5-LED2:l5", 
    "PRM:/r6/l6-LED2:l6", 
 
    "PRM:/r6/l9-LED2:l9", 
    "PRM:/r6/l7-LED2:l7", 
    "PRM:/r6/l8-LED2:l8", 
 
    "PRM:/r1/c1/c2/c3/l8-LED2:l8", 
    "PRM:/r1/c1/c2/c3/l9-LED2:l9", 
    "PRM:/r1/c1/c2/c3/la-LED2:la", 
    "PRM:/r1/c1/c2/c3/lb-LED2:lb", 
  }
the joint identifier strings used to refer to specific joints in OPEN-R (but not needed for others)

Warning:
IMPORTANT!!!! DO NOT CHANGE THE ORDER OF ITEMS IN THIS TABLE!!!
The offset consts defined in this file correspond to this table and will make life easier if you feel the need to reorder things, but they aren't used perfect everywhere
In particular, assumptions are made that the pid joints will be in slots 0-numPIDJoints and that the fast outputs (ie NOT ears) will be in slots 0-NumFastOutputs
There may be other assumptions not noted here!!!
Note:
These entries DON'T correspond to the CPC index numbers defined in WorldState (this only lists joints, and in a different order defined by OPEN-R, that one has sensors as well

Definition at line 357 of file ERS220Info.h.

const float ERS220Info::DefaultPIDs[NumPIDJoints][3]

Initial value:

    {
      { 0x16/(double)(1<<(16-0xE)), 0x04/(double)(1<<(16-0x2)), 0x08/(double)(1<<(16-0xF)) },
      { 0x14/(double)(1<<(16-0xE)), 0x04/(double)(1<<(16-0x2)), 0x06/(double)(1<<(16-0xF)) },
      { 0x23/(double)(1<<(16-0xE)), 0x04/(double)(1<<(16-0x2)), 0x05/(double)(1<<(16-0xF)) },
      { 0x16/(double)(1<<(16-0xE)), 0x04/(double)(1<<(16-0x2)), 0x08/(double)(1<<(16-0xF)) },
      { 0x14/(double)(1<<(16-0xE)), 0x04/(double)(1<<(16-0x2)), 0x06/(double)(1<<(16-0xF)) },
      { 0x23/(double)(1<<(16-0xE)), 0x04/(double)(1<<(16-0x2)), 0x05/(double)(1<<(16-0xF)) },
      { 0x16/(double)(1<<(16-0xE)), 0x04/(double)(1<<(16-0x2)), 0x08/(double)(1<<(16-0xF)) },
      { 0x14/(double)(1<<(16-0xE)), 0x04/(double)(1<<(16-0x2)), 0x06/(double)(1<<(16-0xF)) },
      { 0x23/(double)(1<<(16-0xE)), 0x04/(double)(1<<(16-0x2)), 0x05/(double)(1<<(16-0xF)) },
      { 0x16/(double)(1<<(16-0xE)), 0x04/(double)(1<<(16-0x2)), 0x08/(double)(1<<(16-0xF)) },
      { 0x14/(double)(1<<(16-0xE)), 0x04/(double)(1<<(16-0x2)), 0x06/(double)(1<<(16-0xF)) },
      { 0x23/(double)(1<<(16-0xE)), 0x04/(double)(1<<(16-0x2)), 0x05/(double)(1<<(16-0xF)) },

      { 0x0A/(double)(1<<(16-0xE)), 0x08/(double)(1<<(16-0x2)), 0x0C/(double)(1<<(16-0xF)) },
      { 0x0D/(double)(1<<(16-0xE)), 0x08/(double)(1<<(16-0x2)), 0x0B/(double)(1<<(16-0xF)) },
      { 0x0A/(double)(1<<(16-0xE)), 0x08/(double)(1<<(16-0x2)), 0x0C/(double)(1<<(16-0xF)) }





    }
This table holds the default PID values for each joint. see PIDMC.

Definition at line 433 of file ERS220Info.h.

const float ERS220Info::MaxOutputSpeed[NumOutputs]

Initial value:

 {
    2.8143434e-03,     
    2.4980025e-03,
    2.8361600e-03,
    2.8143434e-03,
    2.4980025e-03,
    2.8361600e-03,
    2.8143434e-03,
    2.4980025e-03,
    2.8361600e-03,
    2.8143434e-03,
    2.4980025e-03,
    2.8361600e-03,
  
    2.1053034e-03,     
    3.0106930e-03,
    3.0106930e-03,
  
    0,0,0,
    0,0,0,
    0,
    0,0,0, 
    0,0,0, 
    0,0,0, 
    0,0,0, 
    0
  }
These values are Sony's recommended maximum joint velocities, in rad/ms.

a value <= 0 means infinite speed (e.g. LEDs)

These limits are not enforced by the framework. They are simply available for you to use as you see fit. HeadPointerMC is (as of v1.6) the only included MotionCommand to actually use these values.

Definition at line 466 of file ERS220Info.h.

const double ERS220Info::outputRanges[NumOutputs][2]

Initial value:

    {
      { RAD(-117),RAD(117) },{ RAD(-11),RAD(89) },{ RAD(-27),RAD(147) }, 
      { RAD(-117),RAD(117) },{ RAD(-11),RAD(89) },{ RAD(-27),RAD(147) }, 
      { RAD(-117),RAD(117) },{ RAD(-11),RAD(89) },{ RAD(-27),RAD(147) }, 
      { RAD(-117),RAD(117) },{ RAD(-11),RAD(89) },{ RAD(-27),RAD(147) }, 

      { RAD(-88.5),RAD(43) },{ RAD(-89.6),RAD(89.6) },{ RAD(-29),RAD(29) }, 
        
      {0,1},{0,1},{0,1},        
      {0,1},{0,1},{0,1},        
      {0,1},                    
      {0,1},{0,1},{0,1},        
      {0,1},{0,1},{0,1},        
      {0,1},{0,1},{0,1},        
      {0,1},{0,1},{0,1},        
      {0,1}                     
    }
This table holds the software limits of each of the outputs.

Definition at line 502 of file ERS220Info.h.

const double ERS220Info::mechanicalLimits[NumOutputs][2]

Initial value:

    {
      { RAD(-120),RAD(120) },{ RAD(-14),RAD(92) },{ RAD(-30),RAD(150) }, 
      { RAD(-120),RAD(120) },{ RAD(-14),RAD(92) },{ RAD(-30),RAD(150) }, 
      { RAD(-120),RAD(120) },{ RAD(-14),RAD(92) },{ RAD(-30),RAD(150) }, 
      { RAD(-120),RAD(120) },{ RAD(-14),RAD(92) },{ RAD(-30),RAD(150) }, 

      { RAD(-91.5),RAD(46) },{ RAD(-92.6),RAD(92.6) },{ RAD(-32),RAD(32) }, 
        
      {0,1},{0,1},{0,1},        
      {0,1},{0,1},{0,1},        
      {0,1},                    
      {0,1},{0,1},{0,1},        
      {0,1},{0,1},{0,1},        
      {0,1},{0,1},{0,1},        
      {0,1},{0,1},{0,1},        
      {0,1}                     
    }
This table holds the mechanical limits of each of the outputs.

Definition at line 522 of file ERS220Info.h.


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