Beispiel #1
0
        private void DetermineRiskFromKneeValgus(TestMeasurementType type)
        {
            double         maxHipFlexion = testMeasurementBuffer[type].Max();
            InjuryRiskType injuryRisk;

            injuryRisk = InjuryRiskType.None;

            AddInjuryRisk(type, injuryRisk);
        }
Beispiel #2
0
        private void AddInjuryRisk(TestMeasurementType type, InjuryRiskType injuryRisk)
        {
            JointType jointAtRisk = riskJoints[type];

            // first check to see if the key "type" exists, if it does then we need to check to see if the new
            // injury risk level is higher than the current one. If it's not, then we don't need to do anything at all.
            if (injuryRisks.ContainsKey(jointAtRisk) && injuryRisks[jointAtRisk] >= injuryRisk)
            {
                return;
            }

            // otherwise we need to update or create the injuryRisk entry in the dictionary
            injuryRisks[jointAtRisk] = injuryRisk;
        }
Beispiel #3
0
        private void DetermineRiskFromHipFlexion(TestMeasurementType type)
        {
            double         maxHipFlexion = testMeasurementBuffer[type].Max();
            InjuryRiskType injuryRisk;

            if (maxHipFlexion < 55.0 || maxHipFlexion > 120.0)
            {
                injuryRisk = InjuryRiskType.High;
            }
            else if (maxHipFlexion >= 90.0)
            {
                injuryRisk = InjuryRiskType.Low;
            }
            else
            {
                injuryRisk = InjuryRiskType.Moderate;
            }

            AddInjuryRisk(type, injuryRisk);
        }
Beispiel #4
0
        private void DetermineInjuryRisk(TestMeasurementType type)
        {
            switch (type)
            {
            case TestMeasurementType.HipFlexionLeft:
            case TestMeasurementType.HipFlexionRight:
                DetermineRiskFromHipFlexion(type);
                break;

            case TestMeasurementType.KneeFlexionLeft:
            case TestMeasurementType.KneeFlexionRight:
                DetermineRiskFromKneeFlexion(type);
                break;

            case TestMeasurementType.KneeValgusLeft:
            case TestMeasurementType.KneeValgusRight:
                DetermineRiskFromKneeValgus(type);
                break;

            default:
                break;
            }
        }
 public TestMeasurement(TestMeasurementType type, double value)
 {
     this.type = type;
     this.value = value;
 }
 public TestMeasurement(TestMeasurementType type, double value)
 {
     this.type  = type;
     this.value = value;
 }
        private void AddInjuryRisk(TestMeasurementType type, InjuryRiskType injuryRisk)
        {
            JointType jointAtRisk = riskJoints[type];

            // first check to see if the key "type" exists, if it does then we need to check to see if the new
            // injury risk level is higher than the current one. If it's not, then we don't need to do anything at all.
            if (injuryRisks.ContainsKey(jointAtRisk) && injuryRisks[jointAtRisk] >= injuryRisk)
            {
                return;
            }

            // otherwise we need to update or create the injuryRisk entry in the dictionary
            injuryRisks[jointAtRisk] = injuryRisk;
        }
        private void DetermineRiskFromKneeValgus(TestMeasurementType type)
        {
            double maxHipFlexion = testMeasurementBuffer[type].Max();
            InjuryRiskType injuryRisk;

            injuryRisk = InjuryRiskType.None;

            AddInjuryRisk(type, injuryRisk);
        }
        private void DetermineRiskFromKneeFlexion(TestMeasurementType type)
        {
            double maxKneeFlexion = testMeasurementBuffer[type].Max();
            InjuryRiskType injuryRisk;

            if (maxKneeFlexion < 80.0 || maxKneeFlexion > 99.0)
            {
                injuryRisk = InjuryRiskType.High;
            }
            else if (maxKneeFlexion <= 95.0)
            {
                injuryRisk = InjuryRiskType.Low;
            }
            else
            {
                injuryRisk = InjuryRiskType.Moderate;
            }

            AddInjuryRisk(type, injuryRisk);
        }
 private void DetermineInjuryRisk(TestMeasurementType type)
 {
     switch (type)
     {
         case TestMeasurementType.HipFlexionLeft:
         case TestMeasurementType.HipFlexionRight:
             DetermineRiskFromHipFlexion(type);
             break;
         case TestMeasurementType.KneeFlexionLeft:
         case TestMeasurementType.KneeFlexionRight:
             DetermineRiskFromKneeFlexion(type);
             break;
         case TestMeasurementType.KneeValgusLeft:
         case TestMeasurementType.KneeValgusRight:
             DetermineRiskFromKneeValgus(type);
             break;
         default:
             break;
     }
 }