{target.getPhotosHtml('')}

{''=='' ? target.boat.name : target.getSailorsHtml('#fname# #lname#')}

{''=='reverse' ? target.boat.name : target.getSailorsHtml('#fname# #lname#')}

{target.boat.externalUrl=='' ? '' : ' '}

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

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

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

In {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")}

{µ.toDate(target.line.date,"FR:HH:MM'CET'")} • {target.line.heading} ° • {µ.toNumber(target.line.speed," ¤1¤.")} kts

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

{µ.toDate(target.line.date,"FR:HH:MM'CET'")} • {target.line.heading} ° • {µ.toNumber(target.line.speed," ¤1¤.")} kts

{µ.toNumber(target.line.dtf," ¤1¤.")} nm+{µ.toNumber(target.line.dtl," ¤1¤.")} nm

PIT

Stealth mode

Not localised

SUS

NYS

DNS

DNC

DNF

DSQ

CNS

Retired

Stealth mode

100%
{target.data.getPhotosHtml('')}

{''=='' ? target.boat.name : target.data.getSailorsHtml('#fname# #lname#')}

{''=='reverse' ? target.boat.name : target.data.getSailorsHtml('#fname# #lname#')}

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

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

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


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

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

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

Dist to leader+{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/240*60," ¤1¤.")} kts{µ.toNumber(target.data.line.dist24h/1440*60," ¤1¤.")} kts
overground{µ.toNumber(target.data.line.dog4h/240*60," ¤1¤.")} kts{µ.toNumber(target.data.line.dog24h/1440*60," ¤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
overground{µ.toNumber(target.data.line.dog4h," ¤1¤.")} nm{µ.toNumber(target.data.line.dog24h," ¤1¤.")} nm

At {µ.toDate(target.boat.track.currentLocation.timecode*1000,"FR:''HH:MM' CET'")}

Heading : {target.boat.track.currentLocation.heading}° • Speed : {µ.toNumber(target.boat.track.currentLocation.getSpeed()," ¤1¤.")} nds • Dist. to fin. : {µ.toNumber(target.data.line.track.slice(-1)[0].slice(-1)[0]," ¤2¤.")} nm

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

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

Dist to leader+{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/240*60," ¤1¤.")} kts{µ.toNumber(target.data.line.dist24h/1440*60," ¤1¤.")} kts
overground{µ.toNumber(target.data.line.dog4h/240*60," ¤1¤.")} kts{µ.toNumber(target.data.line.dog24h/1440*60," ¤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
overground{µ.toNumber(target.data.line.dog4h," ¤1¤.")} nm{µ.toNumber(target.data.line.dog24h," ¤1¤.")} nm

PIT

Stealth mode

Not localised

SUS

NYS

DNS

DNC

DNF

DSQ

CNS

Retired

Stealth mode

{target.data.line.rank}

24h/s

DTL Speed over 24h Rank
{target.rank}{sig.getBoat(target.boat).name} {µ.toRacetime(target.time, "[0]j [1]h [2]min [3]s¤[0]h [1]min [2]s¤[0]min [1]s¤[0]s¤¤N/A")} {µ.toRacetime(target.gap2first, "+ [0]j [1]h [2]min [3]s¤+ [0]h [1]min [2]s¤+ [0]min [1]s¤+ [0]s¤¤N/A")} {µ.toNumber(target.sog," ¤1¤.")} nds
Check at least one line confirm the action confirm the deletion ? automatic type Holland WF 3 Holland TSS 2 Holland TSS 5 Holland TSS 6 Windfarm 20 TSS NE Dover Strait Windfarm 30 Bergues TSS Sandiette TSS Gabbard Windfarm Galloper Windfarm Drillstone Windfarm Windfarm 40 Dover Strait TSS Rampion Offshore Windfarm Casquets TSS Ushant TSS Finisterre TSS Cabo da Roca Exclusion Zone Sagres Exclusion Zone Gibraltar West Exclusion Zone Gibraltar Exclusion Zone Cabo de Gata Exclusion Zone Cabo de Palos Exclusion Zone Cap Negre Exclusion Zone

Race tracker & calculation

www.geovoile.com


Tracking
Yellowbrick
www.ybtracking.com


Weather
D-ICE Engineering
www.dice-engineering.com