//////////////////////////////////////////////////////////////////// // // PURPOSE: List of vehicle parameters, such as mass properties // specific to target named Ahi // // DATE: 2017/10/6 // // NOTES: All values (except "strings") must be followed by // a unit abbreviation (or one of the unit-like // abbreviations: n/a, bool, enum, count). // //////////////////////////////////////////////////////////////////// Vehicle.name = "makai"; // Does not need to match hostname Vehicle.id = 3 enum; // TODO: Why aren't these numbers consistent with the physical hulls? Vehicle.kmlColor = "ff66FF66"; // 4 hex bytes indicating alpha, blue, green, and red Vehicle.argoProgram = "9228"; Vehicle.argoPlatform = "173298"; Vehicle.sendDataToShore = 1 bool; // If true, telemeter data to shore Vehicle.checkMTQueue = 1 bool; // Tells the vehicle whether to explicitly check for MT SBD messages in the queue. Will only check immediately following a GPS fix // Aft battery pack BPC1A.uart = "/dev/ttyTX0" BPC1A.baud = 19200 bps; // Fwd battery pack BPC1B.uart = "/dev/ttyTX2" BPC1B.baud = 19200 bps; // C7 3.3V/5V future expansion CTD_Seabird.loadControl = "/dev/loadC6"; CTD_Seabird.uart = "/dev/ttyC6"; CTD_Seabird.baud = 9600 bps; CTD_NeilBrown.loadControl = "/dev/loadC4"; CTD_NeilBrown.uart = "/dev/ttyC4"; CTD_NeilBrown.baud = 9600 bps; AHRS_M2.loadControl = "/dev/loadC3"; AHRS_M2.uart = "/dev/ttyC3"; AHRS_M2.baud = 115200 bps; WetLabsBB2FL.loadControl = "/dev/loadC2"; WetLabsBB2FL.uart = "/dev/ttyC2"; WetLabsBB2FL.baud = 19200 bps; Aanderaa_O2.loadControl = "/dev/loadC1"; Aanderaa_O2.uart = "/dev/ttyC1"; Aanderaa_O2.baud = 9600 bps; PAR_Licor.loadControl = "/dev/loadC0"; PAR_Licor.ad = "/dev/mcp3553C0"; NAL9602.loadControl = "/dev/loadB7"; NAL9602.uart = "/dev/ttyS2"; NAL9602.baud = 19200 bps; // surface radio is only a "dumb" interface to some sort of surface radio that // is self contained. No uart is supported. Radio_Surface.loadControl = "/dev/loadB6"; // B5 - Power converter DVL_micro.loadControl = "/dev/loadB4"; DVL_micro.uart = "/dev/ttyB4"; DVL_micro.baud = 115200 bps; RDI_Pathfinder.loadControl = "/dev/loadB4"; RDI_Pathfinder.uart = "/dev/ttyB4"; AMEcho.loadControl = "/dev/loadB4"; AMEcho.uart = "/dev/ttyB4"; AMEcho.baud = 4800 bps; // B2 - Power converter // B1 - Payload CANONSampler.loadControl = "/dev/loadB1"; CANONSampler.uart = "/dev/ttyB1"; Depth_Keller.loadControl = "/dev/loadB0"; Depth_Keller.ad = "/dev/mcp3553B0"; // ESP PPP Coms and Power ESPComponent.secLoadControl = "/dev/loadA7"; ESPComponent.uart = "/dev/ttyTX1"; // ESP Console and Power ESPComponent.loadControl = "/dev/loadA6"; ESPComponent.loadControl2 = "/dev/loadA7"; ESPComponent.consoleUart = "/dev/ttyA6"; ESPComponent.baud = 115200 bps; MassServo.loadControl = "/dev/loadA5"; MassServo.uart = "/dev/ttyA5" MassServo.baud = 9600 bps; ElevatorServo.loadControl = "/dev/loadA4"; ElevatorServo.uart = "/dev/ttyA4"; ElevatorServo.baud = 9600 bps; RudderServo.loadControl = "/dev/loadA3"; RudderServo.uart = "/dev/ttyA3" RudderServo.baud = 9600 bps; BuoyancyServo.loadControl = "/dev/loadA2"; BuoyancyServo.uart = "/dev/ttyA2" BuoyancyServo.baud = 9600 bps; ThrusterServo.loadControl = "/dev/loadA1"; ThrusterServo.uart = "/dev/ttyA1" ThrusterServo.baud = 9600 bps;