Тренд по Hull MA

Стратегия основана на тренде скользящей средней Халла.

Тестирование показывает среднегодичную доходность около 61%. Стратегию лучше запускать на крипторынке.

Система отслеживает наклон Hull MA. Растущий наклон подразумевает длинные позиции, падающий наклон открывает короткие. Каждую сделку сопровождает трейлинг-стоп по ATR.

Благодаря более быстрой реакции, чем у обычных средних, Hull MA позволяет быстро реагировать на новый импульс. Стоп по ATR защищает от больших просадок при резком изменении наклона.

Детали

Критерии входа: сигналы на основе MA, ATR.
Длинные/короткие: оба направления.
Критерии выхода: противоположный сигнал или стоп.
Стопы: да.
Значения по умолчанию:
- HmaPeriod = 9
- AtrPeriod = 14
- AtrMultiplier = 2m
- CandleType = TimeSpan.FromMinutes(5)
Фильтры:
- Категория: Тренд
- Направление: Оба
- Индикаторы: MA, ATR
- Стопы: Да
- Сложность: Базовая
- Таймфрейм: Внутридневной (5m)
- Сезонность: Нет
- Нейросети: Нет
- Дивергенция: Нет
- Уровень риска: Средний

using System; using System.Linq; using System.Collections.Generic; using Ecng.Common; using Ecng.Collections; using Ecng.Serialization; using StockSharp.Algo.Indicators; using StockSharp.Algo.Strategies; using StockSharp.BusinessEntities; using StockSharp.Messages; namespace StockSharp.Samples.Strategies; /// <summary> /// Strategy based on Hull Moving Average trend. /// It enters long position when Hull MA is rising and short position when Hull MA is falling. /// </summary> public class HullMaTrendStrategy : Strategy { private readonly StrategyParam<int> _hmaPeriod; private readonly StrategyParam<int> _atrPeriod; private readonly StrategyParam<decimal> _atrMultiplier; private readonly StrategyParam<DataType> _candleType; // Current state private decimal _prevHmaValue; /// <summary> /// Period for Hull Moving Average. /// </summary> public int HmaPeriod { get => _hmaPeriod.Value; set => _hmaPeriod.Value = value; } /// <summary> /// Period for ATR calculation (stop-loss). /// </summary> public int AtrPeriod { get => _atrPeriod.Value; set => _atrPeriod.Value = value; } /// <summary> /// Multiplier for ATR to determine stop-loss distance. /// </summary> public decimal AtrMultiplier { get => _atrMultiplier.Value; set => _atrMultiplier.Value = value; } /// <summary> /// Candle type. /// </summary> public DataType CandleType { get => _candleType.Value; set => _candleType.Value = value; } /// <summary> /// Initialize the Hull MA Trend strategy. /// </summary> public HullMaTrendStrategy() { _hmaPeriod = Param(nameof(HmaPeriod), 500) .SetDisplay("HMA Period", "Period for Hull Moving Average", "Indicators") .SetOptimize(5, 15, 2); _atrPeriod = Param(nameof(AtrPeriod), 14) .SetDisplay("ATR Period", "Period for Average True Range (stop-loss)", "Risk parameters") .SetOptimize(10, 20, 2); _atrMultiplier = Param(nameof(AtrMultiplier), 2m) .SetDisplay("ATR Multiplier", "Multiplier for ATR to determine stop-loss distance", "Risk parameters") .SetOptimize(1, 3, 0.5m); _candleType = Param(nameof(CandleType), TimeSpan.FromMinutes(1).TimeFrame()) .SetDisplay("Candle Type", "Type of candles to use", "General"); } /// <inheritdoc /> public override IEnumerable<(Security sec, DataType dt)> GetWorkingSecurities() { return [(Security, CandleType)]; } /// <inheritdoc /> protected override void OnReseted() { base.OnReseted(); _prevHmaValue = default; } /// <inheritdoc /> protected override void OnStarted2(DateTime time) { base.OnStarted2(time); // Create indicators var hma = new HullMovingAverage { Length = HmaPeriod }; var atr = new AverageTrueRange { Length = AtrPeriod }; // Create subscription and bind indicators var subscription = SubscribeCandles(CandleType); subscription .Bind(hma, atr, ProcessCandle) .Start(); // Setup chart visualization if available var area = CreateChartArea(); if (area != null) { DrawCandles(area, subscription); DrawIndicator(area, hma); DrawOwnTrades(area); } } private void ProcessCandle(ICandleMessage candle, decimal hmaValue, decimal atrValue) { // Skip unfinished candles if (candle.State != CandleStates.Finished) return; // Check if strategy is ready to trade if (!IsFormedAndOnlineAndAllowTrading()) return; // Skip the first received value for proper trend determination if (_prevHmaValue == 0) { _prevHmaValue = hmaValue; return; } // Determine HMA direction with minimum slope threshold var slopeThreshold = _prevHmaValue * 0.0002m; // 0.02% minimum change var isHmaRising = hmaValue - _prevHmaValue > slopeThreshold; var isHmaFalling = _prevHmaValue - hmaValue > slopeThreshold; // Trading logic - only on significant direction changes if (isHmaRising && Position <= 0) { BuyMarket(Volume + Math.Abs(Position)); } else if (isHmaFalling && Position >= 0) { SellMarket(Volume + Math.Abs(Position)); } // Update previous HMA value _prevHmaValue = hmaValue; } }

import clr clr.AddReference("StockSharp.Messages") clr.AddReference("StockSharp.Algo") clr.AddReference("StockSharp.Algo.Indicators") clr.AddReference("StockSharp.Algo.Strategies") from System import TimeSpan, Math from StockSharp.Messages import DataType, CandleStates from StockSharp.Algo.Indicators import HullMovingAverage, AverageTrueRange from StockSharp.Algo.Strategies import Strategy class hull_ma_trend_strategy(Strategy): def __init__(self): super(hull_ma_trend_strategy, self).__init__() self._hma_period = self.Param("HmaPeriod", 500) \ .SetDisplay("HMA Period", "Period for Hull Moving Average", "Indicators") self._atr_period = self.Param("AtrPeriod", 14) \ .SetDisplay("ATR Period", "Period for Average True Range (stop-loss)", "Risk parameters") self._atr_multiplier = self.Param("AtrMultiplier", 2.0) \ .SetDisplay("ATR Multiplier", "Multiplier for ATR to determine stop-loss distance", "Risk parameters") self._candle_type = self.Param("CandleType", DataType.TimeFrame(TimeSpan.FromMinutes(1))) \ .SetDisplay("Candle Type", "Type of candles to use", "General") self._prev_hma_value = 0.0 @property def HmaPeriod(self): return self._hma_period.Value @HmaPeriod.setter def HmaPeriod(self, value): self._hma_period.Value = value @property def AtrPeriod(self): return self._atr_period.Value @AtrPeriod.setter def AtrPeriod(self, value): self._atr_period.Value = value @property def AtrMultiplier(self): return self._atr_multiplier.Value @AtrMultiplier.setter def AtrMultiplier(self, value): self._atr_multiplier.Value = value @property def CandleType(self): return self._candle_type.Value @CandleType.setter def CandleType(self, value): self._candle_type.Value = value def OnStarted2(self, time): super(hull_ma_trend_strategy, self).OnStarted2(time) self._prev_hma_value = 0.0 hma = HullMovingAverage() hma.Length = self.HmaPeriod atr = AverageTrueRange() atr.Length = self.AtrPeriod self.SubscribeCandles(self.CandleType) \ .Bind(hma, atr, self.ProcessCandle) \ .Start() def ProcessCandle(self, candle, hma_value, atr_value): if candle.State != CandleStates.Finished: return hma_f = float(hma_value) if self._prev_hma_value == 0: self._prev_hma_value = hma_f return slope_threshold = self._prev_hma_value * 0.0002 is_hma_rising = hma_f - self._prev_hma_value > slope_threshold is_hma_falling = self._prev_hma_value - hma_f > slope_threshold if is_hma_rising and self.Position <= 0: self.BuyMarket(self.Volume + Math.Abs(self.Position)) elif is_hma_falling and self.Position >= 0: self.SellMarket(self.Volume + Math.Abs(self.Position)) self._prev_hma_value = hma_f def OnReseted(self): super(hull_ma_trend_strategy, self).OnReseted() self._prev_hma_value = 0.0 def CreateClone(self): return hull_ma_trend_strategy()