Holographic Virtual assistant, Smart monitor

Summary

Me and one of my friends will are planning to make the same projects and help each other in case either of us get stuck. We will be making a magic mirror and a holographic virtual assistant. The mirror will recognise our faces and greet us, and will act as an alexa device. We plan on making one of us make the mirror while the other person makes the holographic assistant

thank you sm for giving us this opportunity!

Plan Holographic Assistant

1. Gather materials: -Raspberry Pi -MicroSD card -Power supply for the Raspberry Pi -A transparent display screen (such as a transparent OLED display) -A holographic pyramid (a triangular prism that splits light into a holographic image) -A speaker and microphone for the virtual assistant

2. Set up the Raspberry Pi by inserting the microSD card and connecting the power supply. Follow the instructions for your specific version of the Raspberry Pi to complete the setup process.

3. Install the necessary software on the Raspberry Pi. You will need to install the Raspbian operating system, as well as any software or libraries needed to control the transparent display screen and communicate with the holographic pyramid.

4. Connect the transparent display screen and holographic pyramid to the Raspberry Pi. You may need to use cables or a breakout board to connect these devices to the Raspberry Pi’s GPIO pins.

5. Write a Python script to control the transparent display and holographic pyramid. Use the Python libraries and software you installed to display images on the transparent screen and split the light into a holographic image using the pyramid.

6. Implement the virtual assistant functionality. You can use a pre-existing virtual assistant framework, such as Google’s Dialogflow, or build your own using Python and natural language processing libraries. The virtual assistant should be able to listen for voice commands, process them, and display the results on the transparent screen as holographic images.

7. Test the holographic virtual assistant and make any necessary adjustments. Make sure the transparent display is displaying images correctly and the holographic pyramid is splitting the light into a clear holographic image.

8. Package the Raspberry Pi, transparent display, and holographic pyramid into a suitable housing. This could be a custom-made enclosure or an off-the-shelf case with modifications.

this tutorial: https://maria.awardwinninghuman.com/ Screen for holographic included in the kit linked under products we plan on modifying the 3d print files in fusion 360. We have a 3d printer available.

Plan Smart mirror

1. Gather materials: Raspberry Pi MicroSD card Power supply for the Raspberry Pi A display screen (such as an LCD display) A frame or enclosure for the display A mirror (you can use a two-way mirror or a regular mirror with a sheet of clear acrylic in front of it) A speaker and microphone A rasberry pi camera module

2. Set up the Raspberry Pi by inserting the microSD card and connecting the power supply. Follow the instructions for your specific version of the Raspberry Pi to complete the setup process.

3. Install the necessary software on the Raspberry Pi. You will need to install the Raspbian operating system, as well as any software or libraries needed to control the display screen.

4. Connect the display screen to the Raspberry Pi. You may need to use cables or a breakout board to connect the display to the Raspberry Pi’s HDMI port or GPIO pins.

5. Write a Python script to control the display screen and display information on the smart mirror. You can use libraries such as Pygame or Kivy to create a graphical user interface for the smart mirror. The interface should display the time, date, and weather, as well as any other information you want to include (such as news headlines or reminders).

6. Place the display screen inside the frame or enclosure and attach the mirror to the back of the display. You can use adhesive or mounting brackets to secure the mirror in place.

7. add a speaker and microphone to the smart mirror to enable voice control. You can use a pre-existing virtual assistant framework, such as Google’s Dialogflow, or build your own using Python and natural language processing libraries.

8. Test the smart mirror and make any necessary adjustments. Make sure the display is displaying the correct information and the mirror is properly secured in place.

Will also be looking through different youtube videos we’ll be following youtube videos for making it. We have a frame which is similarly sized to our monior. We will be using that

Budget

The Products Include Delivery And Taxes! The sensors kit contains a camera module, a speaker and a microphone. The seperate cost of all 3 of these is around 60 bucks. So its cheaper in the kit.

We will be covering the remaining cost using our own money