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

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")}

Port LouisHo Chi Minh

100%
<

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

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")}

Standby

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

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

Sur 4hSur 24h
Heading{target.line.heading} °{target.line.heading4h} °{target.line.heading24h} °
Speed{µ.toNumber(target.line.speed," ¤1¤.")} nds{µ.toNumber(target.line.dist4h/4," ¤1¤.")} nds{µ.toNumber(target.line.dist24h/24," ¤1¤.")} nds
VMG{µ.toNumber(target.line.vmg," ¤1¤.")} nds{µ.toNumber(target.line.vmg4h," ¤1¤.")} nds{µ.toNumber(target.line.vmg24h," ¤1¤.")} nds
Distance{µ.toNumber(target.line.dist4h," ¤1¤.")} nm{µ.toNumber(target.line.dist24h," ¤1¤.")} nm

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

Ahead :{µ.toNumber(target.line.dtl," ¤1¤.")} nm

Behind :{µ.toNumber(target.line.dtl," ¤1¤.")} nm

Sur 4hSur 24h
Heading{target.line.heading} °{target.line.heading4h} °{target.line.heading24h} °
Speed{µ.toNumber(target.line.speed," ¤1¤.")} nds{µ.toNumber(target.line.dist4h/4," ¤1¤.")} nds{µ.toNumber(target.line.dist24h/24," ¤1¤.")} nds
VMG{µ.toNumber(target.line.vmg," ¤1¤.")} nds{µ.toNumber(target.line.vmg4h," ¤1¤.")} nds{µ.toNumber(target.line.vmg24h," ¤1¤.")} nds
Distance{µ.toNumber(target.line.dist4h," ¤1¤.")} nm{µ.toNumber(target.line.dist24h," ¤1¤.")} nm

Coordinates : {µ.toCoordinate(target.boat.lat,"LAT")} • {µ.toCoordinate(target.boat.lng,"LNG")}

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

Heading :{target.line.heading} °

Speed :{µ.toNumber(target.line.speed," ¤1¤.")} kts

VMG :{µ.toNumber(target.line.vmg," ¤1¤.")} kts

24h/s

Record
Situation
{µ.toCoordinate(target.boat.lat,"LAT")} {µ.toCoordinate(target.boat.lng,"LNG")}
{target.line.heading} ° {µ.toNumber(target.line.speed," ¤1¤.")} kts {µ.toNumber(target.line.vmgpercent," ¤1¤.")} % {µ.toNumber(target.line.vmg," ¤1¤.")} kts
{µ.toNumber(target.line.dtf," ¤1¤.")} nm
Performances
{µ.toNumber(target.line.dist24h/24," ¤1¤.")} kts {µ.toNumber(target.line.dist24h," ¤1¤.")} nm / 24h 0.00 kts 0.00 nm / 24h Maximum reached {µ.toNumber(target.line.maxdist24h/24," ¤1¤.")} kts {µ.toNumber(target.line.maxdist24h," ¤1¤.")} nm / 24h ({µ.toNumber(target.line.maxdist24h/0.00*100," ¤1¤.")}%)
{µ.toNumber((Math.max(0, µ.TIMECODE-tracker.timecodeOfficialStart)==0 ? 0 : target.line.dog/((µ.TIMECODE-tracker.timecodeOfficialStart)/3600))," ¤1¤.")} kts {µ.toNumber(target.line.dog," ¤1¤.")} nm / ground (1) {µ.toNumber((Math.max(0, µ.TIMECODE-tracker.timecodeOfficialStart)==0 ? 0 : (target.run.length - target.line.dtf)/((µ.TIMECODE-tracker.timecodeOfficialStart)/3600))," ¤1¤.")} kts {µ.toNumber(target.run.length - target.line.dtf," ¤1¤.")} nm / theoretical route (2)
(1) Real distance sail from the start (2) Orthodromical distance sailed from the start
{target.line.heading} ° {µ.toNumber(target.line.speed," ¤1¤.")} kts
{µ.toNumber(target.line.dtf," ¤1¤.")} nm