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Developing a Walabot as a tool for construction and healthcare applications is a worthy contribution to society, which is why most ideas involve these two industries, but I saw the opportunity to break from the mold of standard submissions. A tracking TV stand can increase the quality of life and the standards of tailoring entertainment to an individual and group's needs. For this reason, I developed a technical demonstration of the tracking TV stand.Description
This project is intended to develop Walabot's impact in the entertainment sector.
The tracking TV stand will use a Walabot device as the means to monitor activity in front of it. Any display can have tracking with the help of the Walabot. Homes, shopping centers, restaurants and bars all will have more immersing television viewing with the Walabot.
The Walabot will be mounted on the stand facing the viewing area to capture the environment and people in it. Using the radio frequency technology, the Walabot will track individuals' movements and respond by moving the TV to allow everyone to have great views! Whether it is in a shopping mall display to give passing customers the best view or at a house party to tailor to the guests, the Walabot is the perfect device for the task!Use
The Walabot will work in tandem with a motor to rotate a monitor to give the audience the best view possible.
- Audience Tracking: The Walabot will track the concentration of individuals in view of the TV. It will determine the optimal angle to position the TV based on where the audience is across the viewing area.
- Individual Tracking: The Walabot will motion track individuals in the viewing area to give them the best view as they move around the environment.
All tracking will be done at a continuous rate to match the changing environment, which makes the Walabot perfect for this project.The Project
Design the Parts
The design for a tracking TV stand is relatively simple. A rotating turn table on which the TV sits is attached on the vertical axis to the stationary stand.
Modify a Standard Servo
Using a standard servo (I used a Futaba S3003) to power the rotation of the monitor seemed to work. But, I considered that the torque required to move larger monitors would be too great for a standard service to safely manage. Because of this fact, it was necessary to modify the servo's internal to allow for continuous rotation. With continuous rotation achievable, a gearing ratio could be applied to increase the torque output of the servo, which would allow it to turn larger screens.
- Step 1: Open the servo and melt the "stopper" on the spline gear (this is the gear that you can see rotating on the outside of the servo).
- Step 2: Remove the potentiometer from on the board and solder three male-male wires of different colors in its place. Make sure to know which color is attached to each hole.
- Step 3: Cut a hole in the side of the servo case to allow the added wires to come out, and put the wires through them.
- Step 4: Solder the three added wires to the potentiometer in the opposite way that it was attached to the board. The signal wire is the same, but the ground and power voltages are switched because the plate spins the opposite direction of the servo due to a gearing interaction.
- Step 5: Close the now modified servo.
- Step 6: Attach the spline gear ordered from www.servocity.com to the spline of the Futaba standard servo. It is important to note that a Futaba standard servo has 25 spline teeth (these are the small ones on the inside of the central hole) while other brands may have 24. A spline gear will not be compatible with a servo if it has a different number of spline teeth so use caution in your purchases.
Assemble the TV Stand
The parts were made using 3D printed PLA.
- Step 1: Take the four M5X30 bolts and assemble the eight nylon washers and 4 wheels on them to make four separate wheel hubs.
- Step 2: Place each wheel hub in the baseClamp printed parts.
- Step 3: Attach the potentiometerAdapter with the modified servo potentiometer in it to the plain bore gear with hub, and place the gear with the hub in the hole on the turnTable.
- Step 4: Pace the standard servo in the basePlate part in the designated cutout near the center and the potentiometer on the axis of rotation. Make sure the spline gear does not hit the ribs on the turnTable.
- Step 5: Attach the baseStand, baseClamp, and baseStandMagnet parts to the basePlate using super glue.
- Step 6: Place the Walabot magnet into the baseStandMagnet part, and allow the Walabot to magnetically adhere to the full assembly.
- Step 7: Place the turnTable on top of the assembly with the monitor on top. Be sure to check there is meshing between the gear of the servo and of the turnTable.
Wire the System
To connect the physical assembly to the electrical components of the tracking TV stand, use the following instructions and the diagram in schematics:
- Step 1: Solder lead wires from the ground and power plates on the battery supply. There are two wires coming from the ground plate and one from the power plate. One wire from the ground plate attaches to the ground wire of the servo and the other is on the ground pin (top row third from the left) of the Raspberry Pi. The power lead wire attaches to the power of the servo.
- Step 2: Attach the signal wire of the servo to pin to the top row sixth from the left (two pins between ground and this attachment pin) of the Raspberry Pi.
- Step 3: Power the Raspberry Pi with a 700mA outlet plugin with a USB male end (phone charger) into the Raspberry Pi.
- Step 4: Power the Walabot with the powered USB hub.
Program the Electronics
The Raspberry Pi has python support built into it, and the Walabot API is in python.
- Step 1: Download and install the Walabot API for Raspberry Pi from the Walabot website. https://walabot.com/getting-started
- Step 2: Install the wiringPi library from GitHub. http://wiringpi.com/download-and-install/
- Step 3: Configure the Raspberry Pi to run without a display. Open terminal and type
Use the arrow keys to navigate to Boot Options, press enter. Press enter on Desktop / CLI. Select Console Autologin, press enter. Press tab 2x, then enter to Finish. Select No when asked to reboot now.
- Step 4: Download the trackingTV python script using this command.
wget https://www.hackster.io/code_files/114839/download -O trackingTV.py
- Step 5: Modify the /etc/profile file to run the script on boot.
sudo nano /etc/profile
Scroll to the end of the file and add this on a new line.
Press ctrl+x, then y, then enter to exit the file and save it.
- Step 6: Now that everything is configured reboot the Raspberry Pi.