{target.getPhotosHtml('')}

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

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

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

Départ le {µ.toDate(target.boatClass.run.date,"FR:dddd dd mmmm ' à ' HH:MM 'FR'")}

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

Arrivé le {µ.toDate(target.boat.arrival.date,"FR:dd/mm/yyyy ' à ' HH:MM:ss 'FR'")}

En {µ.toRacetime(target.boat.arrival.racetime, "[0]j [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'FR'")} • {target.line.heading} ° • {µ.toNumber(target.line.speed," ¤1¤.")} nds

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

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

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

PIT

Mode furtif

Non localisé

SUS

NYS

DNS

DNC

DNF

DSQ

CNS

Abandon

Mode furtif

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

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

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

{target.boat.comment}

Départ le {µ.toDate(target.data.boatClass.run.date,"FR:dddd dd mmmm ' à ' HH:MM 'FR'")}

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

Arrivé le {µ.toDate(target.boat.arrival.date,"FR:dd/mm/yyyy ' à ' HH:MM:ss 'FR'")}


Temps de course {µ.toRacetime(target.boat.arrival.racetime, "[0]j [1]h [2]min [3]s¤[0]h [1]min [2]s¤[0]min [1]s¤[0]s¤¤N/A")}

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

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

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

Écart au premier {µ.toRacetime(target.boat.arrival.gapToFirst, "[0]j [1]h [2]min [3]s¤[0]h [1]min [2]s¤[0]min [1]s¤[0]s¤¤N/A")}

Écart au précédent {µ.toRacetime(target.boat.arrival.gapToPrevious, "[0]j [1]h [2]min [3]s¤[0]h [1]min [2]s¤[0]min [1]s¤[0]s¤¤N/A")}


Sur l'orthodromie {µ.toNumber(target.boat.arrival.orthoDistance, " ¤1¤.")} nm / {µ.toNumber(target.boat.arrival.orthoSpeed, " ¤1¤.")} nds

Sur le fond {µ.toNumber(target.boat.arrival.overgroundDistance, " ¤1¤.")} nm / {µ.toNumber(target.boat.arrival.overgroundSpeed, " ¤1¤.")} nds

Heure retenue{µ.toDate(target.data.line.date,"FR:''HH:MM' FR'")}retard

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

Dist. au premier+{µ.toNumber(target.data.line.dtl," ¤1¤.")} nm{µ.toNumber(Math.abs(target.data.line.dtlProgress)," ¤1¤.")} nm

Sur 4hSur 24h
Cap{target.data.line.heading} °{target.data.line.heading4h} °{target.data.line.heading24h} °
Vitesse{µ.toNumber(target.data.line.speed," ¤1¤.")} nds{µ.toNumber(target.data.line.dist4h/240*60," ¤1¤.")} nds{µ.toNumber(target.data.line.dist24h/1440*60," ¤1¤.")} nds
sur le fond{µ.toNumber(target.data.line.dog4h/240*60," ¤1¤.")} nds{µ.toNumber(target.data.line.dog24h/1440*60," ¤1¤.")} nds
VMC{µ.toNumber(target.data.line.vmg," ¤1¤.")} nds{µ.toNumber(target.data.line.vmg4h," ¤1¤.")} nds{µ.toNumber(target.data.line.vmg24h," ¤1¤.")} nds
Distance{µ.toNumber(target.data.line.dist4h," ¤1¤.")} nm{µ.toNumber(target.data.line.dist24h," ¤1¤.")} nm
sur le fond{µ.toNumber(target.data.line.dog4h," ¤1¤.")} nm{µ.toNumber(target.data.line.dog24h," ¤1¤.")} nm

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

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

Au classement de {µ.toDate(target.data.line.report.timecode*1000,"FR:''HH:MM' FR'")}

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

Dist. au premier+{µ.toNumber(target.data.line.dtl," ¤1¤.")} nm{µ.toNumber(Math.abs(target.data.line.dtlProgress)," ¤1¤.")} nm

Sur 4hSur 24h
Cap{target.data.line.heading} °{target.data.line.heading4h} °{target.data.line.heading24h} °
Vitesse{µ.toNumber(target.data.line.speed," ¤1¤.")} nds{µ.toNumber(target.data.line.dist4h/240*60," ¤1¤.")} nds{µ.toNumber(target.data.line.dist24h/1440*60," ¤1¤.")} nds
sur le fond{µ.toNumber(target.data.line.dog4h/240*60," ¤1¤.")} nds{µ.toNumber(target.data.line.dog24h/1440*60," ¤1¤.")} nds
VMC{µ.toNumber(target.data.line.vmg," ¤1¤.")} nds{µ.toNumber(target.data.line.vmg4h," ¤1¤.")} nds{µ.toNumber(target.data.line.vmg24h," ¤1¤.")} nds
Distance{µ.toNumber(target.data.line.dist4h," ¤1¤.")} nm{µ.toNumber(target.data.line.dist24h," ¤1¤.")} nm
sur le fond{µ.toNumber(target.data.line.dog4h," ¤1¤.")} nm{µ.toNumber(target.data.line.dog24h," ¤1¤.")} nm

PIT

Mode furtif

Non localisé

SUS

NYS

DNS

DNC

DNF

DSQ

CNS

Abandon

Mode furtif

{target.data.line.rank}

24h/s

DTL Vitesse sur 24h Rang
{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
Le classement des Ocean FiftyClass40 est l’addition des temps des manches 1 et 2 après jury. Il est donc nécessaire d’attendre une majeure partie des arrivées pour avoir un premier classement général provisoire avant jury.
The Ocean FiftyClass40 rankings are based on adding the time of the first and second legs, after Jury. We are going to have to wait for many boats to finish to get a real idea of the overall provisional rankings (before Jury).
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Cartographie

www.geovoile.com


Calculs
René Boulaire


Prévisions météo
D-ICE Engineering
www.dice-engineering.com