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Strategi Trading OTT yang Stochastic

Penulis:ChaoZhang, Tanggal: 2023-11-22 10:11:33
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Gambaran umum

Strategi ini menggabungkan osilator stokastik dan indikator OTT untuk menghasilkan sinyal perdagangan. Ini akan memicu pesanan ketika jalur OTT cepat dan lambat bersilang. Untuk menyaring sinyal palsu, osilator stokastik digunakan untuk validasi.

Logika Strategi

  1. Hitung jalur OTT cepat dan lambat berdasarkan rata-rata bergerak dan persentase stop loss.
  2. Menghitung osilator stokastik berdasarkan harga tinggi, rendah dan dekat.
  3. Periksa arah panjang atau pendek ketika jalur OTT cepat dan lambat bersilang.
  4. Masukkan perintah sesuai dengan silang dan arah.

Analisis Keuntungan

  1. OTT sendiri memiliki efek pembalikan yang baik dan sensitif terhadap titik balik.
  2. Stochastic menyaring sinyal palsu dan menghindari terjebak dalam konsolidasi.
  3. Jenis rata-rata yang dapat disesuaikan untuk fleksibilitas menghadapi pasar yang berbeda.
  4. Mengambil keuntungan dan menghentikan kerugian untuk mengendalikan risiko.

Analisis Risiko

  1. Penyesuaian parameter yang tidak tepat dapat menyebabkan overtrading atau bias.
  2. OTT dapat menghasilkan sinyal yang salah di pasar tren.
  3. Siklus pasar secara keseluruhan juga harus dipertimbangkan.

Arahan Optimasi

  1. Mengoptimalkan kombinasi parameter untuk kinerja terbaik.
  2. Menghakimi periode efektif yang menggabungkan indikator tren.
  3. Memperkenalkan modul manajemen uang.

Ringkasan

Strategi ini mengintegrasikan kemampuan pembalikan OTT dan penyaringan stokastik untuk mengontrol risiko secara efektif. Ini bekerja dengan baik untuk pembalikan atau pasar berkisar. Tetapi siklus pasar dan tuning membutuhkan perhatian. Perbaikan lebih lanjut dapat dilakukan dalam optimasi parameter dan manajemen uang.


/*backtest
start: 2022-11-21 00:00:00
end: 2023-11-21 00:00:00
period: 1d
basePeriod: 1h
exchanges: [{"eid":"Futures_Binance","currency":"BTC_USDT"}]
*/

// This source code is subject to the terms of the Mozilla Public License 2.0 at https://mozilla.org/MPL/2.0/
// © BigCoinHunter

//@version=5
strategy(title='OTT-Stoch-TP/SL', overlay=true, 
     pyramiding=0, default_qty_type=strategy.percent_of_equity, 
     default_qty_value=100, initial_capital=1000, 
     currency=currency.USD, commission_value=0.05, 
     commission_type=strategy.commission.percent, 
     process_orders_on_close=true)

//-------------- fetch user inputs ------------------
src = input(defval=close, title='OTT source')
src1 = input(defval=close, title="Stoch OTT source")

ottFastPercent = input.float(title='OTT Fast Percent(%):', defval=3.0, minval=0.1, maxval=30.0, step=0.1)
ottSlowPercent = input.float(title='OTT Slow Percent(%):', defval=10.0, minval=0.1, maxval=30.0, step=0.1)

ottFastLength = input.int(title="OTT Fast Length:", defval=1, minval=1)
ottSlowLength = input.int(title="OTT Slow Length:", defval=1, minval=1)

periodK = input.int(defval=500, title="%K Length", minval=1, step=10)
smoothK = input.int(defval=200, title="%K Smoothing", minval=1, step=10)
stochLength=input.int(defval=2, title="Stoch OTT Period", minval=1)
stochPercent=input.float(defval=0.5, title="Stoch OTT Percent", step=0.1, minval=0)

mav = input.string(title="Moving Average Type", defval="SMA", options=["SMA", "EMA", "WMA", "TMA", "VAR", "WWMA", "ZLEMA", "TSF"])

tp = input.float(title="Take Profit:", defval=0.0, minval=0.0, maxval=100.0, step=0.1) * 0.01
sl = input.float(title="Stop Loss:  ", defval=0.0, minval=0.0, maxval=100.0, step=0.1) * 0.01

//showsupport = input.bool(title="Show Support Line?", defval=true)
stoch = input.bool(title="evaluate Stoch OTT", defval=false)

longEntry = input.bool(defval=true, title= 'Long Entry', inline="11")
shortEntry = input.bool(defval=true, title='Short Entry', inline="11")


//---------- backtest range setup ------------
fromDay   = input.int(defval = 1, title = "From Day", minval = 1, maxval = 31)
fromMonth = input.int(defval = 1, title = "From Month", minval = 1, maxval = 12)
fromYear  = input.int(defval = 2021, title = "From Year", minval = 2010)
toDay     = input.int(defval = 30, title = "To Day", minval = 1, maxval = 31)
toMonth   = input.int(defval = 12, title = "To Month", minval = 1, maxval = 12)
toYear    = input.int(defval = 2022, title = "To Year", minval = 2010)


//------------ time interval setup -----------
start     = timestamp(fromYear, fromMonth, fromDay, 00, 00)  // backtest start window
finish    = timestamp(toYear, toMonth, toDay, 23, 59)        // backtest finish window
window()  => time >= start and time <= finish ? true : false // create function "within window of time"


//-------- calculate the OTT lines ----------
Var_Func(src,length)=>
    valpha=2/(length+1)
    vud1=src>src[1] ? src-src[1] : 0
    vdd1=src<src[1] ? src[1]-src : 0
    vUD=math.sum(vud1,9)
    vDD=math.sum(vdd1,9)
    vCMO=nz((vUD-vDD)/(vUD+vDD))
    VAR=0.0
    VAR:=nz(valpha*math.abs(vCMO)*src)+(1-valpha*math.abs(vCMO))*nz(VAR[1])
    
//VAR=Var_Func(src,length)

Wwma_Func(src,length)=>
    wwalpha = 1/ length
    WWMA = 0.0
    WWMA := wwalpha*src + (1-wwalpha)*nz(WWMA[1])
    
//WWMA=Wwma_Func(src,length)

Zlema_Func(src,length)=>
    zxLag = length/2==math.round(length/2) ? length/2 : (length - 1) / 2
    zxEMAData = (src + (src - src[zxLag]))
    ZLEMA = ta.ema(zxEMAData, length)
    
//ZLEMA=Zlema_Func(src,length)

Tsf_Func(src,length)=>
    lrc = ta.linreg(src, length, 0)
    lrc1 = ta.linreg(src,length,1)
    lrs = (lrc-lrc1)
    TSF = ta.linreg(src, length, 0)+lrs
    
//TSF=Tsf_Func(src,length)

getMA(src, length) =>
    ma = 0.0
    if mav == "SMA"
        ma := ta.sma(src, length)
        ma

    if mav == "EMA"
        ma := ta.ema(src, length)
        ma

    if mav == "WMA"
        ma := ta.wma(src, length)
        ma

    if mav == "TMA"
        ma := ta.sma(ta.sma(src, math.ceil(length / 2)), math.floor(length / 2) + 1)
        ma

    if mav == "VAR"
        ma := Var_Func(src,length)
        ma

    if mav == "WWMA"
        ma := Wwma_Func(src,length)
        ma

    if mav == "ZLEMA"
        ma := Zlema_Func(src,length)
        ma

    if mav == "TSF"
        ma := Tsf_Func(src,length)
        ma
    ma

//-------- OTT line calculation --------
MAvg1=getMA(src, ottFastLength)
fark1=MAvg1*ottFastPercent*0.01
longStop1 = MAvg1 - fark1
longStopPrev1 = nz(longStop1[1], longStop1)
longStop1 := MAvg1 > longStopPrev1 ? math.max(longStop1, longStopPrev1) : longStop1
shortStop1 =  MAvg1 + fark1
shortStopPrev1 = nz(shortStop1[1], shortStop1)
shortStop1 := MAvg1 < shortStopPrev1 ? math.min(shortStop1, shortStopPrev1) : shortStop1
dir1 = 1
dir1 := nz(dir1[1], dir1)
dir1 := dir1 == -1 and MAvg1 > shortStopPrev1 ? 1 : dir1 == 1 and MAvg1 < longStopPrev1 ? -1 : dir1
MT1 = dir1==1 ? longStop1: shortStop1

OTTFast=MAvg1>MT1 ? MT1*(200+ottFastPercent)/200 : MT1*(200-ottFastPercent)/200

MAvg2=getMA(src, ottSlowLength)
fark2=MAvg2*ottSlowPercent*0.01
longStop2 = MAvg2 - fark2
longStopPrev2 = nz(longStop2[1], longStop2)
longStop2 := MAvg2 > longStopPrev2 ? math.max(longStop2, longStopPrev2) : longStop2
shortStop2 =  MAvg2 + fark2
shortStopPrev2 = nz(shortStop2[1], shortStop2)
shortStop2 := MAvg2 < shortStopPrev2 ? math.min(shortStop2, shortStopPrev2) : shortStop2
dir2 = 1
dir2 := nz(dir2[1], dir2)
dir2 := dir2 == -1 and MAvg2 > shortStopPrev2 ? 1 : dir2 == 1 and MAvg2 < longStopPrev2 ? -1 : dir2
MT2 = dir2==1 ? longStop2: shortStop2

OTTSlow=MAvg2>MT2 ? MT2*(200+ottSlowPercent)/200 : MT2*(200-ottSlowPercent)/200

//-------- Stoch OTT calculation ----------

Var_Func1(src1,length)=>
    valpha1=2/(length+1)
    vud11=src1>src1[1] ? src1-src1[1] : 0
    vdd11=src1<src1[1] ? src1[1]-src1 : 0
    vUD1=math.sum(vud11,9)
    vDD1=math.sum(vdd11,9)
    vCMO1=nz((vUD1-vDD1)/(vUD1+vDD1))
    VAR1=0.0
    VAR1:=nz(valpha1*math.abs(vCMO1)*src1)+(1-valpha1*math.abs(vCMO1))*nz(VAR1[1])
VAR1=Var_Func1(src1,stochLength)

k = Var_Func1(ta.stoch(close, high, low, periodK), smoothK)
k1=k+1000

VAR2=Var_Func(k1,stochLength)

MAvg3=Var_Func(k1, stochLength)
fark3=MAvg3*stochPercent*0.01
longStop3 = MAvg3 - fark3
longStopPrev3 = nz(longStop3[1], longStop3)
longStop3 := MAvg3 > longStopPrev3 ? math.max(longStop3, longStopPrev3) : longStop3
shortStop3 =  MAvg3 + fark3
shortStopPrev3 = nz(shortStop3[1], shortStop3)
shortStop3 := MAvg3 < shortStopPrev3 ? math.min(shortStop3, shortStopPrev3) : shortStop3
dir3 = 1
dir3 := nz(dir3[1], dir3)
dir3 := dir3 == -1 and MAvg3 > shortStopPrev3 ? 1 : dir3 == 1 and MAvg3 < longStopPrev3 ? -1 : dir3
MT3 = dir3==1 ? longStop3: shortStop3
OTTStoch=MAvg3>MT3 ? MT3*(200+stochPercent)/200 : MT3*(200-stochPercent)/200 


//------- define the global variables ------
var bool long = true
var bool stoppedOutLong = false
var bool stoppedOutShort = false

//-------- determine the market direction --------
if OTTFast > OTTSlow
    long := true
else if OTTFast < OTTSlow
    long := false

        
//--------- calculate the input/output points -----------
longProfitPrice  = strategy.position_avg_price * (1 + tp)     // tp -> take profit percentage
longStopPrice = strategy.position_avg_price * (1 - sl)        // sl -> stop loss percentage

shortProfitPrice  = strategy.position_avg_price * (1 - tp)
shortStopPrice = strategy.position_avg_price * (1 + sl)

//------------------- determine buy and sell points ---------------------
buySignall = false
sellSignall = false

if stoch == false
    buySignall := window() and long  and (not stoppedOutLong)
    sellSignall := window() and (not long)  and (not stoppedOutShort)
else
    buySignall := window() and long  and (not stoppedOutLong) and ( k1 > OTTStoch )
    sellSignall := window() and (not long)  and (not stoppedOutShort) and ( k1 < OTTStoch )

//---------- execute the strategy -----------------
if(longEntry and shortEntry)
    if long 
        strategy.entry("LONG", strategy.long, when = buySignall, comment = "ENTER LONG")
        stoppedOutLong := true
        stoppedOutShort := false
    else 
        strategy.entry("SHORT", strategy.short, when = sellSignall, comment = "ENTER SHORT")
        stoppedOutLong  := false
        stoppedOutShort := true

else if(longEntry)
    strategy.entry("LONG", strategy.long,  when = buySignall)
    strategy.close("LONG", when = sellSignall)
    if long 
        stoppedOutLong := true
    else
        stoppedOutLong  := false

else if(shortEntry)
    strategy.entry("SHORT", strategy.short, when = sellSignall)
    strategy.close("SHORT", when = buySignall)
    if not long
        stoppedOutShort := true
    else
        stoppedOutShort := false
    

//----------------- take profit and stop loss -----------------
if(tp>0.0 and sl>0.0)
    if ( strategy.position_size > 0 )
        strategy.exit(id="LONG", limit=longProfitPrice, stop=longStopPrice, comment="Long TP/SL Trigger")

    else if ( strategy.position_size < 0 )
        strategy.exit(id="SHORT", limit=shortProfitPrice, stop=shortStopPrice, comment="Short TP/SL Trigger")

else if(tp>0.0)
    if ( strategy.position_size > 0 )
        strategy.exit(id="LONG", limit=longProfitPrice, comment="Long TP Trigger")

    else if ( strategy.position_size < 0 )
        strategy.exit(id="SHORT", limit=shortProfitPrice, comment="Short TP Trigger")
        
else if(sl>0.0)
    if ( strategy.position_size > 0 )
        strategy.exit(id="LONG",  stop=longStopPrice, comment="Long SL Trigger")

    else if ( strategy.position_size < 0 )
        strategy.exit(id="SHORT",  stop=shortStopPrice, comment="Short SL Trigger")
        
        
//------------- plot charts ---------------------
lineColor1 = long ? color.green : color.red
lineColor2 = long ? color.aqua : color.fuchsia

light_green=#08ff12
light_red=#fe0808

plot(nz(OTTFast), color=light_green, linewidth=3, title="OTT Fast")
plot(nz(OTTSlow), color=light_red, linewidth=3, title="OTT Slow")















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