1

How to display the angles of Kinect skeleton joints?

1

3 Answers 3

2

This is the programm you are looking for:

namespace Microsoft.Samples.Kinect.SkeletonBasics
{
    using System.IO;
    using System.IO.Ports;
    using System.Threading;
    using System;
    using System.Windows;
    using System.Windows.Media;
    using Microsoft.Kinect;
    using Microsoft.Kinect.Toolkit.Fusion;
    using System.Windows.Media.Media3D;

    public class Angles
    {
    public double AngleBetweenTwoVectors(Vector3D vectorA, Vector3D vectorB)
        {
            double dotProduct;
            vectorA.Normalize();
            vectorB.Normalize();
            dotProduct = Vector3D.DotProduct(vectorA, vectorB);

            return (double)Math.Acos(dotProduct)/Math.PI*180;
        }

        public byte[] GetVector(Skeleton skeleton)
        {
            Vector3D ShoulderCenter = new Vector3D(skeleton.Joints[JointType.ShoulderCenter].Position.X, skeleton.Joints[JointType.ShoulderCenter].Position.Y, skeleton.Joints[JointType.ShoulderCenter].Position.Z);
            Vector3D RightShoulder = new Vector3D(skeleton.Joints[JointType.ShoulderRight].Position.X, skeleton.Joints[JointType.ShoulderRight].Position.Y, skeleton.Joints[JointType.ShoulderRight].Position.Z);
            Vector3D LeftShoulder = new Vector3D(skeleton.Joints[JointType.ShoulderLeft].Position.X, skeleton.Joints[JointType.ShoulderLeft].Position.Y, skeleton.Joints[JointType.ShoulderLeft].Position.Z);
            Vector3D RightElbow = new Vector3D(skeleton.Joints[JointType.ElbowRight].Position.X, skeleton.Joints[JointType.ElbowRight].Position.Y, skeleton.Joints[JointType.ElbowRight].Position.Z);
            Vector3D LeftElbow = new Vector3D(skeleton.Joints[JointType.ElbowLeft].Position.X, skeleton.Joints[JointType.ElbowLeft].Position.Y, skeleton.Joints[JointType.ElbowLeft].Position.Z);
            Vector3D RightWrist = new Vector3D(skeleton.Joints[JointType.WristRight].Position.X, skeleton.Joints[JointType.WristRight].Position.Y, skeleton.Joints[JointType.WristRight].Position.Z);
            Vector3D LeftWrist = new Vector3D(skeleton.Joints[JointType.WristLeft].Position.X, skeleton.Joints[JointType.WristLeft].Position.Y, skeleton.Joints[JointType.WristLeft].Position.Z);
            Vector3D UpVector = new Vector3D(0.0, 1.0, 0.0);

            double AngleRightElbow = AngleBetweenTwoVectors(RightElbow - RightShoulder, RightElbow - RightWrist);
            double AngleRightShoulder = AngleBetweenTwoVectors(UpVector, RightShoulder - RightElbow);
            double AngleLeftElbow = AngleBetweenTwoVectors(LeftElbow - LeftShoulder, LeftElbow - LeftWrist);
            double AngleLeftShoulder = AngleBetweenTwoVectors(UpVector, LeftShoulder - LeftElbow);


            byte[] Angles = {Convert.ToByte(AngleRightElbow), Convert.ToByte(AngleRightShoulder),Convert.ToByte(AngleLeftElbow),Convert.ToByte(AngleLeftShoulder)};
            return Angles;
        }
}

    /// Interaction logic for MainWindow.xaml
    public partial class MainWindow : Window
    {
        SerialPort ArduinoPort;
        /// Width of output drawing
        private const float RenderWidth = 640.0f;

        /// Height of our output drawing
        private const float RenderHeight = 480.0f;

        /// Thickness of drawn joint lines
        private const double JointThickness = 3;

        /// Thickness of body center ellipse
        private const double BodyCenterThickness = 10;

        /// Thickness of clip edge rectangles
        private const double ClipBoundsThickness = 10;

        /// Brush used to draw skeleton center point
        private readonly Brush centerPointBrush = Brushes.Blue;

        /// Brush used for drawing joints that are currently tracked
        private readonly Brush trackedJointBrush = new SolidColorBrush(Color.FromArgb(255, 68, 192, 68));

        /// Brush used for drawing joints that are currently inferred
        private readonly Brush inferredJointBrush = Brushes.Yellow;

        /// Pen used for drawing bones that are currently tracked
        private readonly Pen trackedBonePen = new Pen(Brushes.Green, 6);

        /// Pen used for drawing bones that are currently inferred
        private readonly Pen inferredBonePen = new Pen(Brushes.Gray, 1);

        /// Active Kinect sensor
        private KinectSensor sensor;

        /// Drawing group for skeleton rendering output
        private DrawingGroup drawingGroup;

        /// Drawing image that we will display
        private DrawingImage imageSource;

        /// Initializes a new instance of the MainWindow class.
        public MainWindow()
        {
            InitializeComponent();
        }

        private static void RenderClippedEdges(Skeleton skeleton, DrawingContext drawingContext)
        {
            if (skeleton.ClippedEdges.HasFlag(FrameEdges.Bottom))
            {
                drawingContext.DrawRectangle(
                    Brushes.Red,
                    null,
                    new Rect(0, RenderHeight - ClipBoundsThickness, RenderWidth, ClipBoundsThickness));
            }

            if (skeleton.ClippedEdges.HasFlag(FrameEdges.Top))
            {
                drawingContext.DrawRectangle(
                    Brushes.Red,
                    null,
                    new Rect(0, 0, RenderWidth, ClipBoundsThickness));
            }

            if (skeleton.ClippedEdges.HasFlag(FrameEdges.Left))
            {
                drawingContext.DrawRectangle(
                    Brushes.Red,
                    null,
                    new Rect(0, 0, ClipBoundsThickness, RenderHeight));
            }

            if (skeleton.ClippedEdges.HasFlag(FrameEdges.Right))
            {
                drawingContext.DrawRectangle(
                    Brushes.Red,
                    null,
                    new Rect(RenderWidth - ClipBoundsThickness, 0, ClipBoundsThickness, RenderHeight));
            }
        }

        private void WindowLoaded(object sender, RoutedEventArgs e)
        {

            // Create the drawing group we'll use for drawing
            this.drawingGroup = new DrawingGroup();

            // Create an image source that we can use in our image control
            this.imageSource = new DrawingImage(this.drawingGroup);

            // Display the drawing using our image control
            Image.Source = this.imageSource;

            // Look through all sensors and start the first connected one.
            // This requires that a Kinect is connected at the time of app startup.
            // To make your app robust against plug/unplug, 
            // it is recommended to use KinectSensorChooser provided in Microsoft.Kinect.Toolkit (See components in Toolkit Browser).
            foreach (var potentialSensor in KinectSensor.KinectSensors)
            {
                if (potentialSensor.Status == KinectStatus.Connected)
                {
                    this.sensor = potentialSensor;
                    break;
                }
            }

            if (null != this.sensor)
            {
                // Turn on the skeleton stream to receive skeleton frames
                this.sensor.SkeletonStream.Enable();

                // Add an event handler to be called whenever there is new color frame data
                this.sensor.SkeletonFrameReady += this.SensorSkeletonFrameReady;

                // Start the sensor!
                try
                {
                    this.sensor.Start();
                }
                catch (IOException)
                {
                    this.sensor = null;
                }
            }

            if (null == this.sensor)
            {
                this.statusBarText.Text = Properties.Resources.NoKinectReady;
            }
        }

        private void WindowClosing(object sender, System.ComponentModel.CancelEventArgs e)
        {
            if (null != this.sensor)
            {
                //ArduinoPort.Close();
                this.sensor.Stop();
            }
        }

        private void SensorSkeletonFrameReady(object sender, SkeletonFrameReadyEventArgs e)
        {

            Skeleton[] skeletons = new Skeleton[0];

            using (SkeletonFrame skeletonFrame = e.OpenSkeletonFrame())
            {
                if (skeletonFrame != null)
                {
                    skeletons = new Skeleton[skeletonFrame.SkeletonArrayLength];
                    skeletonFrame.CopySkeletonDataTo(skeletons);

                }
            }

            using (DrawingContext dc = this.drawingGroup.Open())
            {
                // Draw a transparent background to set the render size
                dc.DrawRectangle(Brushes.Black, null, new Rect(0.0, 0.0, RenderWidth, RenderHeight));

                if (skeletons.Length != 0)
                {
                    foreach (Skeleton skel in skeletons)
                    {
                        RenderClippedEdges(skel, dc);

                        if (skel.TrackingState == SkeletonTrackingState.Tracked)
                        {
                            this.DrawBonesAndJoints(skel, dc);
                            Angles MyAngles = new Angles();
                            byte[] ReadyAngles = MyAngles.GetVector(skel);
                            RightElbow.Text = ReadyAngles[0].ToString();
                            RightShoulder.Text = ReadyAngles[1].ToString();
                            LeftElbow.Text = ReadyAngles[2].ToString();
                            LeftShoulder.Text = ReadyAngles[3].ToString();
                            byte[] SequenceStart = {255};

                            if (ArduinoPort.IsOpen)
                            {
                                ArduinoPort.Write(SequenceStart,0,1);
                                ArduinoPort.Write(ReadyAngles, 0, 4);
                            }
                        }
                        else if (skel.TrackingState == SkeletonTrackingState.PositionOnly)
                        {
                            dc.DrawEllipse(
                            this.centerPointBrush,
                            null,
                            this.SkeletonPointToScreen(skel.Position),
                            BodyCenterThickness,
                            BodyCenterThickness);
                        }
                    }
                }

                // prevent drawing outside of our render area
                this.drawingGroup.ClipGeometry = new RectangleGeometry(new Rect(0.0, 0.0, RenderWidth, RenderHeight));
            }
        }

        private void DrawBonesAndJoints(Skeleton skeleton, DrawingContext drawingContext)
        {
            // Render Torso
            this.DrawBone(skeleton, drawingContext, JointType.Head, JointType.ShoulderCenter);
            this.DrawBone(skeleton, drawingContext, JointType.ShoulderCenter, JointType.ShoulderLeft);
            this.DrawBone(skeleton, drawingContext, JointType.ShoulderCenter, JointType.ShoulderRight);
            this.DrawBone(skeleton, drawingContext, JointType.ShoulderCenter, JointType.Spine);
            this.DrawBone(skeleton, drawingContext, JointType.Spine, JointType.HipCenter);
            this.DrawBone(skeleton, drawingContext, JointType.HipCenter, JointType.HipLeft);
            this.DrawBone(skeleton, drawingContext, JointType.HipCenter, JointType.HipRight);

            // Left Arm
            this.DrawBone(skeleton, drawingContext, JointType.ShoulderLeft, JointType.ElbowLeft);
            this.DrawBone(skeleton, drawingContext, JointType.ElbowLeft, JointType.WristLeft);
            this.DrawBone(skeleton, drawingContext, JointType.WristLeft, JointType.HandLeft);

            // Right Arm
            this.DrawBone(skeleton, drawingContext, JointType.ShoulderRight, JointType.ElbowRight);
            this.DrawBone(skeleton, drawingContext, JointType.ElbowRight, JointType.WristRight);
            this.DrawBone(skeleton, drawingContext, JointType.WristRight, JointType.HandRight);

            // Left Leg
            this.DrawBone(skeleton, drawingContext, JointType.HipLeft, JointType.KneeLeft);
            this.DrawBone(skeleton, drawingContext, JointType.KneeLeft, JointType.AnkleLeft);
            this.DrawBone(skeleton, drawingContext, JointType.AnkleLeft, JointType.FootLeft);

            // Right Leg
            this.DrawBone(skeleton, drawingContext, JointType.HipRight, JointType.KneeRight);
            this.DrawBone(skeleton, drawingContext, JointType.KneeRight, JointType.AnkleRight);
            this.DrawBone(skeleton, drawingContext, JointType.AnkleRight, JointType.FootRight);


            // Render Joints
            foreach (Joint joint in skeleton.Joints)
            {
                Brush drawBrush = null;

                if (joint.TrackingState == JointTrackingState.Tracked)
                {
                    drawBrush = this.trackedJointBrush;                    
                }
                else if (joint.TrackingState == JointTrackingState.Inferred)
                {
                    drawBrush = this.inferredJointBrush;                    
                }

                if (drawBrush != null)
                {
                    drawingContext.DrawEllipse(drawBrush, null, this.SkeletonPointToScreen(joint.Position), JointThickness, JointThickness);
                }
            }
        }

        private Point SkeletonPointToScreen(SkeletonPoint skelpoint)
        {
            // Convert point to depth space.  
            // We are not using depth directly, but we do want the points in our 640x480 output resolution.
            DepthImagePoint depthPoint = this.sensor.CoordinateMapper.MapSkeletonPointToDepthPoint(skelpoint, DepthImageFormat.Resolution640x480Fps30);
            return new Point(depthPoint.X, depthPoint.Y);
        }

        private void DrawBone(Skeleton skeleton, DrawingContext drawingContext, JointType jointType0, JointType jointType1)
        {
            Joint joint0 = skeleton.Joints[jointType0];
            Joint joint1 = skeleton.Joints[jointType1];

            // If we can't find either of these joints, exit
            if (joint0.TrackingState == JointTrackingState.NotTracked ||
                joint1.TrackingState == JointTrackingState.NotTracked)
            {
                return;
            }

            // Don't draw if both points are inferred
            if (joint0.TrackingState == JointTrackingState.Inferred &&
                joint1.TrackingState == JointTrackingState.Inferred)
            {
                return;
            }

            // We assume all drawn bones are inferred unless BOTH joints are tracked
            Pen drawPen = this.inferredBonePen;
            if (joint0.TrackingState == JointTrackingState.Tracked && joint1.TrackingState == JointTrackingState.Tracked)
            {
                drawPen = this.trackedBonePen;
            }

            drawingContext.DrawLine(drawPen, this.SkeletonPointToScreen(joint0.Position), this.SkeletonPointToScreen(joint1.Position));
        }

        private void CheckBoxSeatedModeChanged(object sender, RoutedEventArgs e)
        {
            if (null != this.sensor)
            {
                if (this.checkBoxSeatedMode.IsChecked.GetValueOrDefault())
                {
                    this.sensor.SkeletonStream.TrackingMode = SkeletonTrackingMode.Seated;
                }
                else
                {
                    this.sensor.SkeletonStream.TrackingMode = SkeletonTrackingMode.Default;
                }
            }
        }

        private void CheckBoxConnectArduino(object sender, RoutedEventArgs e)
        {

            if (this.checkArduinoConnected.IsChecked.GetValueOrDefault())
            {
                string MyCOM = "COM10";
                ArduinoPort = new SerialPort(MyCOM, 9600);
                ArduinoPort.Open();
            }
            else {
                ArduinoPort.Close();
            }
        }
    }
}

You also need to add the xaml:

<Window x:Class="Microsoft.Samples.Kinect.SkeletonBasics.MainWindow"
        xmlns="http://schemas.microsoft.com/winfx/2006/xaml/presentation"
        xmlns:x="http://schemas.microsoft.com/winfx/2006/xaml"
        Title="Skeleton Basics" Height="735" Width="770" Loaded="WindowLoaded" Closing="WindowClosing">

    <Window.Resources>
        <SolidColorBrush x:Key="MediumGreyBrush" Color="#ff6e6e6e"/>
        <SolidColorBrush x:Key="KinectPurpleBrush" Color="#ff52318f"/>
        <SolidColorBrush x:Key="KinectBlueBrush" Color="#ff00BCF2"/>
        <Style TargetType="{x:Type Image}">
            <Setter Property="SnapsToDevicePixels" Value="True"/>
        </Style>
        <Style TargetType="{x:Type CheckBox}" x:Key="SquareCheckBox" >
            <Setter Property="Template">
                <Setter.Value>
                    <ControlTemplate TargetType="{x:Type CheckBox}">
                        <Grid>
                            <StackPanel Orientation="Horizontal" Background="Transparent">
                                <Grid x:Name="SquareCheckBoxChecked">
                                    <Image x:Name="CheckedNormal" Source="Images\CheckedNormal.png" Stretch="None" HorizontalAlignment="Center"/>
                                    <Image x:Name="CheckedHover" Source="Images\CheckedHover.png" Stretch="None" HorizontalAlignment="Center" Visibility="Collapsed"/>
                                </Grid>
                                <Grid x:Name="SquareCheckBoxUnchecked" Visibility="Collapsed">
                                    <Image x:Name="UncheckedNormal" Source="Images\UncheckedNormal.png" Stretch="None" HorizontalAlignment="Center"/>
                                    <Image x:Name="UncheckedHover" Source="Images\UncheckedHover.png" Stretch="None" HorizontalAlignment="Center" Visibility="Collapsed"/>
                                </Grid>
                                <TextBlock x:Name="SquareCheckBoxText" Text="{TemplateBinding Content}" TextAlignment="Left"  VerticalAlignment="Center" Foreground="{StaticResource KinectPurpleBrush}" FontSize="15"  Margin="9,0,0,0"/>
                            </StackPanel>
                        </Grid>
                        <ControlTemplate.Triggers>
                            <Trigger Property="IsChecked" Value="false">
                                <Setter Property="Visibility" Value="Collapsed" TargetName="SquareCheckBoxChecked"/>
                                <Setter Property="Visibility" Value="Visible" TargetName="SquareCheckBoxUnchecked"/>
                            </Trigger>
                            <Trigger Property="IsMouseOver" Value="true">
                                <Setter Property="Visibility" Value="Collapsed" TargetName="CheckedNormal"/>
                                <Setter Property="Visibility" Value="Collapsed" TargetName="UncheckedNormal"/>
                                <Setter Property="Visibility" Value="Visible" TargetName="CheckedHover"/>
                                <Setter Property="Visibility" Value="Visible" TargetName="UncheckedHover"/>
                                <Setter Property="Foreground" Value="{StaticResource KinectBlueBrush}" TargetName="SquareCheckBoxText"/>
                            </Trigger>
                        </ControlTemplate.Triggers>
                    </ControlTemplate>
                </Setter.Value>
            </Setter>
        </Style>
    </Window.Resources>

    <Grid Name="layoutGrid" Margin="10 0 10 0">
        <Grid.RowDefinitions>
            <RowDefinition Height="Auto"/>
            <RowDefinition Height="*"/>
            <RowDefinition Height="Auto"/>
            <RowDefinition Height="Auto"/>
        </Grid.RowDefinitions>
        <DockPanel Grid.Row="0" Margin="0 0 0 20">
            <Image DockPanel.Dock="Left" Source="Images\Logo.png" Stretch="Fill" Height="32" Width="81" Margin="0 10 0 5"/>
            <TextBlock DockPanel.Dock="Right" Margin="0 0 -1 0" VerticalAlignment="Bottom" Foreground="{StaticResource MediumGreyBrush}" FontFamily="Segoe UI" FontSize="18">Skeleton Basics</TextBlock>
            <Image Grid.Column="1" Source="Images\Status.png" Stretch="None" HorizontalAlignment="Center" Margin="0 0 0 5"/>
        </DockPanel>
        <Viewbox Grid.Row="1" Stretch="Uniform" HorizontalAlignment="Center">
            <Image Name="Image" Width="640" Height="480"/>
        </Viewbox>
        <CheckBox Grid.Row="2" Style="{StaticResource SquareCheckBox}" Content="Connect Arduino" Height="Auto" HorizontalAlignment="Right" VerticalAlignment="Center" Margin="0 10 10 10" Name="checkArduinoConnected" Checked="CheckBoxConnectArduino" Unchecked="CheckBoxConnectArduino"/>
        <CheckBox Grid.Row="2" Style="{StaticResource SquareCheckBox}" Content="Seated Mode" Height="Auto" HorizontalAlignment="Left" VerticalAlignment="Center" Margin="0 10 10 10" Name="checkBoxSeatedMode" Checked="CheckBoxSeatedModeChanged" Unchecked="CheckBoxSeatedModeChanged"/>
        <StatusBar Grid.Row="3" HorizontalAlignment="Stretch" Name="statusBar" VerticalAlignment="Bottom" Background="White" Foreground="{StaticResource MediumGreyBrush}">
            <StatusBarItem Padding="0 0 0 10">
                <TextBlock Name="statusBarText" Margin="-1 0 0 0">Click 'Seated' to change skeletal pipeline type!</TextBlock>
            </StatusBarItem>
        </StatusBar>
        <TextBox Name="RightShoulder" HorizontalAlignment="Left" Height="23" Margin="150,12,0,0" Grid.Row="2" TextWrapping="Wrap"  VerticalAlignment="Top" Width="100"/>
        <TextBox Name="RightElbow" HorizontalAlignment="Left" Height="23" Margin="250,12,0,0" Grid.Row="2" TextWrapping="Wrap"  VerticalAlignment="Top" Width="100"/>
        <TextBox Name="LeftShoulder" HorizontalAlignment="Left" Height="23" Margin="350,12,0,0" Grid.Row="2" TextWrapping="Wrap" VerticalAlignment="Top" Width="100"/>
        <TextBox Name="LeftElbow" HorizontalAlignment="Left" Height="23" Margin="450,12,0,0" Grid.Row="2" TextWrapping="Wrap"  VerticalAlignment="Top" Width="100"/>
    </Grid>
</Window>

Of course you can not use the images, but that is not necessary. If this doesn't work right away just send me your e-mail and I will send you the complete source code :)

2

You can try Kinect Angles @ http://drenton72.wordpress.com/2012/05/23/kinect-angles-v2-4/

2

I created Kinect Angles all I do is read the X,Y positions of the joints and then work out difference between the two positions as you would with vectors (just subtract one vector from the other one). Then I use simple trig to work out the angle of the vector. My Kinect Angles is open source so you should be able to figure it out from my source code.

0

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.