Make a Smart Speaker With Raspberry Pi for Daily Use

by yihui in Circuits > Raspberry Pi

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Make a Smart Speaker With Raspberry Pi for Daily Use

prototype1.jpg
protopyte1a.png
IMG_20190308_113218.jpg

If we make something with Raspberry Pi or Arduino but without a case,most likely we would not use it in everyday life. So when I finished to make a smart speaker with Raspberry Pi, I thought I should make a case for it. Here we go.

Prepare Hardware

Raspberry-Pi-3-Flat-Top-800.jpg
respeaker-4mic-linear-array.jpg
45mm-speaker.png
nylon_rivet.png

The hardware includes:

  • Raspberry Pi 3B (or 3B+)
  • ReSpeaker 4 Mic Linear Array
  • 45mm Speaker
  • Laser-Cut Paper Case
  • 2 Nylon Rivets (R3035 or R3045), the diameter of mounting holes is 3mm (ф3). Screws will also work, while rivets is easier to use

Make a Paper Case

prototype1_librecad.png
speaker_hole.png

To use a laser cutter, we need a CAD design file. I learned how to use a CAD software at college, but have not used CAD for many years. Fortunately, it is easy to design a paper case. We only have to know how draw lines and circles. Commercial CAD tools are quite expensive, but for this simple task, the open source CAD tool - LibreCAD is enough to get it done. You can design a unique paper case based on my work.

If you have not used any CAD software, it will take some time to be familiar with a CAD software like LibreCAD. You can also use Python script to genrate the CAD DXF file. Manfred Moitzi's handy Python library - ezdxf will help us to do the design work. For example, to draw an array of speaker holes, using Python script is much easier:

<p>import ezdxf<br>
dwg = ezdxf.new('R2007')
msp = dwg.modelspace()
d = 40.
n = int(40 / 1.5)
delta = d / n
start = (100, 100)
msp.add_circle(start, 20)
for x in range(-n, n):
    for y in range(-n, n):
        if y & 1:
            offset = 0.5
        else:
            offset = 0
        rx = ((x + offset)**2 + y**2)**0.5
        if rx <= (n/2 + 0.1):
            r = 0.35 # (0.25 * delta * (n/2 - rx) / (n/2) + 0.15 * delta)
            msp.add_circle((start[0] + (x + offset) * delta, start[1] + y * delta), r)
dwg.saveas('speaker_hole.dxf')</p>

Downloads

prototype1.dxf

Assambling

Software

For a smart speaker, the software is the key point. The easiest way is using Alexa Voice Service or Google Assistant SDK. If you want to know how a voice assistant works, you should try MyCroft. Or if you prefer to an offline voice assistant, Snips.ai is a good option. You can find a full list of resources at voice-engine/make-a-smart-speaker.

You can find a step by step guide to setup Alexa Voice Service as a voice assistant at voice-engine/smart_speaker_from_scratch