{target.boat.name}
0.0 nm0.0 nm{target.line.racestatus}0.0 kts0.0 kts{µ.toNumber(target.line.dtf," ¤1¤.")} nm
Arrived on {µ.toDate(target.boat.arrival.date,"UTC:dd/mm/yyyy ' at ' HH:MM:ss 'UTC'")}
{target.line.racestatus}
{µ.toNumber(Math.abs(target.line.dtlProgress)," ¤1¤.")} nm{target.line.racestatus}{target.line.heading}°{µ.toNumber(target.line.speed," ¤1¤.")} kts{µ.toNumber(target.line.vmg," ¤1¤.")} kts{µ.toNumber(target.line.dtf," ¤1¤.")} nm
{µ.toNumber(target.line.dtl," ¤1¤.")} nm{µ.toNumber(Math.abs(target.line.dtlProgress)," ¤1¤.")} nm{target.line.racestatus}{target.line.heading}°{µ.toNumber(target.line.speed," ¤1¤.")} kts{µ.toNumber(target.line.vmg," ¤1¤.")} kts{µ.toNumber(target.line.dtf," ¤1¤.")} nm
Stealth mode
{target.line.racestatus}
{target.line.racestatus}
{target.line.racestatus}
{target.line.racestatus}
{target.line.racestatus}

NYS

{target.line.racestatus}
Stealth mode

100%
{target.boat.name}

Start on {µ.toDate(target.data.boatClass.run.date,"UTC:dddd dd mmmm ' at ' HH:MM 'UTC'")}

Total distance{µ.toNumber(target.data.line.dtf," ¤1¤.")} nm

Arrived on {µ.toDate(target.boat.arrival.date,"UTC:dd/mm/yyyy ' at ' HH:MM:ss 'UTC'")}


Race time {µ.toRacetime(target.boat.arrival.racetime, "[0]d [1]h [2]min [3]s¤[0]h [1]min [2]s¤[0]min [1]s¤[0]s¤¤N/A")}

Penalty {µ.toRacetime(Math.abs(target.boat.arrival.penalty), "[0]d [1]h [2]min [3]s¤[0]h [1]min [2]s¤[0]min [1]s¤[0]s¤¤N/A")}

Bonus {µ.toRacetime(Math.abs(target.boat.arrival.penalty), "[0]d [1]h [2]min [3]s¤[0]h [1]min [2]s¤[0]min [1]s¤[0]s¤¤N/A")}

Official time {µ.toRacetime(target.boat.arrival.jury, "[0]d [1]h [2]min [3]s¤[0]h [1]min [2]s¤[0]min [1]s¤[0]s¤¤N/A")}

Gap to first {µ.toRacetime(target.boat.arrival.gapToFirst, "[0]d [1]h [2]min [3]s¤[0]h [1]min [2]s¤[0]min [1]s¤[0]s¤¤N/A")}

Gap to previous {µ.toRacetime(target.boat.arrival.gapToPrevious, "[0]d [1]h [2]min [3]s¤[0]h [1]min [2]s¤[0]min [1]s¤[0]s¤¤N/A")}


Over the orthodromy {µ.toNumber(target.boat.arrival.orthoDistance, " ¤1¤.")} nm / {µ.toNumber(target.boat.arrival.orthoSpeed, " ¤1¤.")} kts

Over ground {µ.toNumber(target.boat.arrival.overgroundDistance, " ¤1¤.")} nm / {µ.toNumber(target.boat.arrival.overgroundSpeed, " ¤1¤.")} kts

PIT

Hour retained{µ.toDate(target.data.line.date,"UTC:''HH:MM' UTC'")}lag

Dist. to finish{µ.toNumber(target.data.line.dtf," ¤1¤.")} nm

Over 4hOver 24h
Heading{target.data.line.heading} °{target.data.line.heading4h} °{target.data.line.heading24h} °
Speed{µ.toNumber(target.data.line.speed," ¤1¤.")} kts{µ.toNumber(target.data.line.dist4h/4," ¤1¤.")} kts{µ.toNumber(target.data.line.dist24h/24," ¤1¤.")} kts
VMC{µ.toNumber(target.data.line.vmg," ¤1¤.")} kts{µ.toNumber(target.data.line.vmg4h," ¤1¤.")} kts{µ.toNumber(target.data.line.vmg24h," ¤1¤.")} kts
Distance{µ.toNumber(target.data.line.dist4h," ¤1¤.")} nm{µ.toNumber(target.data.line.dist24h," ¤1¤.")} nm

Hour retained{µ.toDate(target.data.line.date,"UTC:''HH:MM' UTC'")}lag

Dist. to finish{µ.toNumber(target.data.line.dtf," ¤1¤.")} nm

Gap to first+{µ.toNumber(target.data.line.dtl," ¤1¤.")} nm{µ.toNumber(Math.abs(target.data.line.dtlProgress)," ¤1¤.")} nm

Over 4hOver 24h
Heading{target.data.line.heading} °{target.data.line.heading4h} °{target.data.line.heading24h} °
Speed{µ.toNumber(target.data.line.speed," ¤1¤.")} kts{µ.toNumber(target.data.line.dist4h/4," ¤1¤.")} kts{µ.toNumber(target.data.line.dist24h/24," ¤1¤.")} kts
VMC{µ.toNumber(target.data.line.vmg," ¤1¤.")} kts{µ.toNumber(target.data.line.vmg4h," ¤1¤.")} kts{µ.toNumber(target.data.line.vmg24h," ¤1¤.")} kts
Distance{µ.toNumber(target.data.line.dist4h," ¤1¤.")} nm{µ.toNumber(target.data.line.dist24h," ¤1¤.")} nm

At {µ.toDate(target.boat.timecode*1000,"UTC:''HH:MM' UTC'")}

Heading : {target.boat.heading}° • Speed : {µ.toNumber(target.boat.track.currentLocation.getSpeed()," ¤1¤.")} nds

At report on {µ.toDate(target.data.line.report.timecode*1000,"UTC:''HH:MM' UTC'")}

Dist. to finish{µ.toNumber(target.data.line.dtf," ¤1¤.")} nm

Over 4hOver 24h
Heading{target.data.line.heading} °{target.data.line.heading4h} °{target.data.line.heading24h} °
Speed{µ.toNumber(target.data.line.speed," ¤1¤.")} kts{µ.toNumber(target.data.line.dist4h/4," ¤1¤.")} kts{µ.toNumber(target.data.line.dist24h/24," ¤1¤.")} kts
VMC{µ.toNumber(target.data.line.vmg," ¤1¤.")} kts{µ.toNumber(target.data.line.vmg4h," ¤1¤.")} kts{µ.toNumber(target.data.line.vmg24h," ¤1¤.")} kts
Distance{µ.toNumber(target.data.line.dist4h," ¤1¤.")} nm{µ.toNumber(target.data.line.dist24h," ¤1¤.")} nm

At {µ.toDate(target.boat.timecode*1000,"UTC:''HH:MM' UTC'")}

Heading : {target.boat.heading}° • Speed : {µ.toNumber(target.boat.track.currentLocation.getSpeed()," ¤1¤.")} nds

At report on {µ.toDate(target.data.line.report.timecode*1000,"UTC:''HH:MM' UTC'")}

Dist. to finish{µ.toNumber(target.data.line.dtf," ¤1¤.")} nm

Gap to first+{µ.toNumber(target.data.line.dtl," ¤1¤.")} nm{µ.toNumber(Math.abs(target.data.line.dtlProgress)," ¤1¤.")} nm

Over 4hOver 24h
Heading{target.data.line.heading} °{target.data.line.heading4h} °{target.data.line.heading24h} °
Speed{µ.toNumber(target.data.line.speed," ¤1¤.")} kts{µ.toNumber(target.data.line.dist4h/4," ¤1¤.")} kts{µ.toNumber(target.data.line.dist24h/24," ¤1¤.")} kts
VMC{µ.toNumber(target.data.line.vmg," ¤1¤.")} kts{µ.toNumber(target.data.line.vmg4h," ¤1¤.")} kts{µ.toNumber(target.data.line.vmg24h," ¤1¤.")} kts
Distance{µ.toNumber(target.data.line.dist4h," ¤1¤.")} nm{µ.toNumber(target.data.line.dist24h," ¤1¤.")} nm

At {µ.toDate(target.boat.timecode*1000,"UTC:''HH:MM' UTC'")}

Heading : {target.boat.heading}° • Speed : {µ.toNumber(target.boat.track.currentLocation.getSpeed()," ¤1¤.")} nds • Dist. to fin. : {µ.toNumber(µ.geo.getOrthodromy([target.boat.lat, target.boat.lng],[target.data.boatClass.run.endLat, target.data.boatClass.run.endLng])," ¤1¤.")} nm

At report on {µ.toDate(target.data.line.report.timecode*1000,"UTC:''HH:MM' UTC'")}

Dist. to finish{µ.toNumber(target.data.line.dtf," ¤1¤.")} nm

Over 4hOver 24h
Heading{target.data.line.heading} °{target.data.line.heading4h} °{target.data.line.heading24h} °
Speed{µ.toNumber(target.data.line.speed," ¤1¤.")} kts{µ.toNumber(target.data.line.dist4h/4," ¤1¤.")} kts{µ.toNumber(target.data.line.dist24h/24," ¤1¤.")} kts
VMC{µ.toNumber(target.data.line.vmg," ¤1¤.")} kts{µ.toNumber(target.data.line.vmg4h," ¤1¤.")} kts{µ.toNumber(target.data.line.vmg24h," ¤1¤.")} kts
Distance{µ.toNumber(target.data.line.dist4h," ¤1¤.")} nm{µ.toNumber(target.data.line.dist24h," ¤1¤.")} nm

At {µ.toDate(target.boat.timecode*1000,"UTC:''HH:MM' UTC'")}

Heading : {target.boat.heading}° • Speed : {µ.toNumber(target.boat.track.currentLocation.getSpeed()," ¤1¤.")} nds • Dist. to fin. : {µ.toNumber(µ.geo.getOrthodromy([target.boat.lat, target.boat.lng],[target.data.boatClass.run.endLat, target.data.boatClass.run.endLng])," ¤1¤.")} nm

At report on {µ.toDate(target.data.line.report.timecode*1000,"UTC:''HH:MM' UTC'")}

Dist. to finish{µ.toNumber(target.data.line.dtf," ¤1¤.")} nm

Gap to first+{µ.toNumber(target.data.line.dtl," ¤1¤.")} nm{µ.toNumber(Math.abs(target.data.line.dtlProgress)," ¤1¤.")} nm

Over 4hOver 24h
Heading{target.data.line.heading} °{target.data.line.heading4h} °{target.data.line.heading24h} °
Speed{µ.toNumber(target.data.line.speed," ¤1¤.")} kts{µ.toNumber(target.data.line.dist4h/4," ¤1¤.")} kts{µ.toNumber(target.data.line.dist24h/24," ¤1¤.")} kts
VMC{µ.toNumber(target.data.line.vmg," ¤1¤.")} kts{µ.toNumber(target.data.line.vmg4h," ¤1¤.")} kts{µ.toNumber(target.data.line.vmg24h," ¤1¤.")} kts
Distance{µ.toNumber(target.data.line.dist4h," ¤1¤.")} nm{µ.toNumber(target.data.line.dist24h," ¤1¤.")} nm

Stealth mode

Not localised

SUS

DNF

Retired

DNS

DNC

NYS

DSQ

TRACKER_BOATCARD_STATUS_STMOUT
{target.data.line.rank}

24h/s

DTL Speed over 24h Rank
DTL DTL Gain/Loss Status Status Course Course Speed Speed VMC VMC DTF DTF

»

Leg 1 Lorient » Cascais
Leg 2 Cascais » Alicante
Leg 3 Alicante » Genova
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