Difference between revisions of "Architecture:Specification of BABEL Interfaces"

From The BABEL Development Site
(DRV_GPS)
(DRV_GPS)
Line 508: Line 508:
 
out double height,
 
out double height,
 
out short fixQuality,
 
out short fixQuality,
 +
out COMMON::TTimeStamp time,
 
out boolean error
 
out boolean error
 
)
 
)

Revision as of 23:16, 17 May 2009

Previous: Overview Next: Modules


Interfaces

Overview

In this page we present a number of standardized interfaces (IFs) for each layer of modules in our architecture. One given module may implement only one or several such interfaces simultaneously, a specially common case in the HAD layer.

Each interface is implemented in one and only one BABEL service groups, whose services are specified here. Data types are given in the standard BABEL description language (BDL), with some small additions declared under the namespace BABEL::COMMON, as shown in this Appendix.

The input parameter "devIndex" deserves more discussion, since it solves the problem of multiple copies of hardware devices with just one software module. This parameter is a zero-based index which specifies which device is being referenced for each access. The number of different devices is stored in the RPD (see section 4). Only modules in layers 2 and 3 are supposed to know about this parameter, so high-level modules never need to worry about how many hardware devices are present on the robot.

Developers of HAD modules are strongly encouraged to do implement real support for "devIndex". For example, at module start-up, the RPD may be checked to discover how many devices are present on the robot and what are they parameters (configuration ".ini"-like text block). An internal list of objects can be hold within the BABEL module, one for each physical device, so each request is directed to the appropriate device. If however, "devIndex" is ignored in either the calling or called part, please set it to "0" for compatibility with future versions that will really do use this index.

Hardware Abstraction Drivers (HAD) interfaces

The next section (Modules) contains a list of existing modules and the corresponding implemented IFs.

DRV_IOBOARD

BABEL service group BABEL services to implement

DRV_IOBOARD

For devices with capabilities for at least one of the following: Controlling of sonars range sensors, servos, ADC and DAC.

<cpp>

getCountADC(

in short devIndex, out unsigned short count ) </cpp>

Returns the number of Analog-to-Digital converters (ADC) available as inputs on this device.

<cpp>

getReadingsADC(

in short devIndex, out COMMON::SeqOfFloats readings, out boolean error ) </cpp>

Return the latest ADC readings from the device. They are given in volts and are supposed to be acquired in last few milliseconds (Max. 1 sec.). Error is true on any error.

<cpp>

getCountDAC(

in short devIndex, out unsigned short count ) </cpp>

Returns the number of Digital-to-Analog converters (DAC) available as outputs on this device.

<cpp>

setOutputDAC(

in short devIndex, in unsigned short channel, in float value, out boolean error ) </cpp>

Sets an analog output. Desired value is given in volts, first channel is 0; error is true on failure.

<cpp>

getCountSonars(

in short devIndex, out unsigned short count ) </cpp>

Returns the number of sonars-range-finders attached to this device.

<cpp>

getReadingsSonars(

in short devIndex, out COMMON::SeqOfFloats readings, out boolean error ) </cpp>

Return the latest sonars readings from the device. They are given in meters and are supposed to be acquired in last few milliseconds (Max. 1 sec.). Error is true on any error.

<cpp>

getCountPWM(

in short devIndex, out unsigned short count ) </cpp>

Returns the number of PWM generators available as outputs on this device. They can be used to control servos.

<cpp>

setOutputPWM(

in short devIndex, in unsigned short channel, in float value, out boolean error ) </cpp>

Sets the PWM “on” period, given in seconds. Typical values are 0.0002-0.004 secs; first channel is 0; error is true on failure.


DRV_WHEELS_MOBILE_BASE

BABEL service group BABEL services to implement

DRV_WHEELS_MOBILE_BASE

For robotics mobile bases using wheels on 2D surfaces.

<cpp>

getOdometry(

in short devIndex, in boolean reset, out double x, out double y, out double phi, out double v, out double w, out boolean error ) </cpp>

Reads the current odometric increment: x,y in meters and phi in radians, positive values are anticlockwise. phi=0 means heading towards positive x axis. If reset is true, odometry is set to (0,0,0) thus each request acquires the motion difference. Linear (v) and angular (w) velocities are also estimated, in m/s (positive/negative for forward/backward) and rad/s (positive is anticlockwise), respectively; error is true on failure.

<cpp>

setOdometry(

in short devIndex, in double x, in double y, in double phi, out boolean error ) </cpp>

Changes the odometry estimation of the device. ; error is true on failure.

<cpp>

setVelocities(

in short devIndex, in double v, in double w, out boolean error ) </cpp>

Changes the desired base linear (v) and angular (w) velocities, in m/s and rad/s, respectively. The conventions are the same than in service “getOdometry”; error is true on failure.

<cpp>

getGroundThruth(

in short devIndex, out double x, out double y, out double phi, out double v, out double w, out boolean error ) </cpp>

Only for simulated robots: It returns the true pose, and velocities, of the robot in the simulated world coordinate reference. In non-simulated modules this method may return the current robot odometry.


DRV_2D_RANGE_SCANNER

BABEL service group BABEL services to implement

DRV_2D_RANGE_SCANNER

For laser range scanners, which provides an “instantaneous” measure of ranges in a plane.

<cpp>

getScan(

in short devIndex, out COMMON::SeqOfFloats scan, out COMMON::SeqOfBools valid, out COMMON::TTimeStamp time, out boolean error ) </cpp>

Reads the last received scan, as distances in meters. Valid indicates non-reflected rays or any other error in individual measurements; error is true on failure.

<cpp>

getObservation(

in short devIndex, out COMMON::SeqOfBytes obs, out boolean error ) </cpp>

Return the last scan as a serialized MRPT object of the class mrpt::slam::CObservation2DRangeScan.


DRV_INERTIAL_SENSOR

BABEL service group BABEL services to implement

DRV_INERTIAL_SENSOR

For robotics mobile bases using wheels moving on 2D surfaces.

<cpp>

getObservation(

in short devIndex, out COMMON::SeqOfBytes obs, out boolean error ) </cpp>

Return the last reading as a serialized MRPT object of the class mrpt::slam::CObservationIMU.


DRV_BATTERY_LEVEL

BABEL service group BABEL services to implement

DRV_BATTERY_LEVEL

For devices which can measure the robot battery level.

<cpp>

getLevel(

in short devIndex, out boolean charging, out float level, out float estLife, out boolean error ) </cpp>

Reads the level of the battery (0:empty, 1:full), and an estimation of the remaining running time to full discharge (estLife) in seconds; if charging is true, the robot is connected to a power supply and previous values should not be applicable. error is true on any error.


DRV_SPEECH

BABEL service group BABEL services to implement

DRV_SPEECH

For software libraries dealing with synthesis and/or recognition of speech.

<cpp>

enableEvents(

in short devIndex, in boolean enable, out boolean error ) </cpp>

Enables (true) or disables (false) sending events on speech detection. error is true on any error. Default is disabled. Event code is 5000.

<cpp>

getLastRecognised(

in short devIndex, out COMMMON::SeqOfStrings phrases out boolean error ) </cpp>

Returns the queue of last recognised phrases in a strings list. If none the list will be empty. This can be polled or read after an event is received. error is true on any error.

<cpp>

tts(

in short devIndex, in string text, out boolean error ) </cpp>

Synthesizes the given text. error is true on any error. This should returns immediately, and do not wait until execution completion.


DRV_PTU

BABEL service group BABEL services to implement

DRV_PTU

For pan and tilt (or tilt only) units

<cpp>

setOrientation(

in short devIndex, in float yaw, in float pitch out boolean error ) </cpp>

Changes the orientation of the PTU. Angles are in radians, and error will be true on any error.


DRV_MOBILE_JOINT

BABEL service group BABEL services to implement

DRV_MOBILE_JOINT

For any mobile element which can hold other elements (heads, PTUs, robotic arms,…)

<cpp>

getTerminationPose(

in short devIndex, out COMMMON::TMatrix44 pose, out boolean error ) </cpp>

Returns the current pose of the termination point (to be defined in each specific device) relative to the base of the element. error will be true if the measure is unavailable. (See section 4)



DRV_GPS

BABEL service group BABEL services to implement

DRV_GPS

For any radio positioning system (GPS, GALILEO, GLONASS,...)

<cpp>

getDatums(

in short devIndex, out double lat, out double lon, out double height, out short fixQuality, out COMMON::TTimeStamp time, out boolean error ) </cpp>

Returns the current estimation from the device (fixQuality: 1=GPS, 2=DGPS, 4=RTK fixed, 5=RTK Float). error will be true if the device is unavailable.

<cpp>

getObservation(

in short devIndex, out COMMON::SeqOfBytes obs, out boolean error ) </cpp>

Return the last reading as a serialized MRPT object of the class mrpt::slam::CObservationGPS.

Common Sensory Interface

Common Actions Interface