GMU:Bioelectronics, aesthetics and other interesting things/Di Yang

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Turn a plant into an instrument

During our course, we have tried some plant sensing circuit from Martin Howse, Leslie Garcia and Miya Masaoka. From their examples, I find it quite interesting to be able to capture the reaction of the plant in an electronic way. With the analog signals we get from the plants, we can convert them into other forms, which will be more perceivable and interactive to us human.

As we all know, there are lots of languages of flower that we human write for them. For example, Daisy: Innocence and Tulips: Love, Fame,etc. So, these words and sentences are created by man and why not let the flowers speak for themselves ?

So, my initial idea is to use the circuit of plant sensing, which involves arduino, to set up a installment consisting of different types of flowers. So when they are touched by people, they can speak for their own. I am curious to see, if they are speaking the same language or not. And I also want to see how the languages change from the bud to wilting. I will record the whole process and the data, and make a time-lapse video combining with the sound produced by the circuit. Here below is a inspiration for this concept.

Time-Lapse: Watch Flowers Bloom Before Your Eyes [1]

But as my experiments with different parts of plants with different structures, it is fascinating to discover the different outcomes when I play with it. So, I decide to change my idea and make a interactive plant instrument for people to play with. The old idea is still meaningful and interesting, but it requires more time and less interactive for audience.

References:

1.Martin Howse - INTER-SPECIES COMMUNICATION PLATFORM

2.Leslie Garcia - [Pulsu(m) Plantae]

3.Miya Masaoka - Miya Masaoka's Pieces for Plants #7, NYU

Circuit

I use another circuit different from the ones we have seen in the course to amplify the signals, but the basic principle is the same. I also put a passive speaker on the breadboard, so this installment has no need to rely on the external speaker or to connect to a computer. In this way, you can carry your circuit anywhere and play with it right away.

Components:

- 1*Arduino board

- 1*Breadboard

- 1*USB cable

- Jumper wires

- 1*Passive buzzer

- 1*Resistor(10KΩ)

- 1* NPN Transistor S8050

- Plants

Above is the shopping list for this instrument set-up. For my current experiments, the plants I use are just bought from the local supermarket as a bouquet of flowers for decoration. You can replace them with other plants. I also have tested with potted plants, but because they are too small with very short branches and stems, it's bit hard to interact with them and the result is also not as good as the ones with longer stems.

By using the electronic components above, we can connect them according to the graph below. The flower icon is where you will connect the wire with your plants.

Flowersensing.png

Here is an example of mine. One side of the wire is attached to the flower and the other side is connected to the end of the stem.


Below is the code for Ardunio, so the circuit will actually work. The data from the plant will be used to change the frequency and the duration. In this way ,the buzzer is able to produce different sounds.

Arduino code:

Arduino-flower.png

Experiments with plants


1. Rose

I connected the circuit with the rose to see the conductivity of a single twig and how the sound would change based on which part i touched. One side is attached to the end of the stem, and the other side is connected to the flower bud. Below are two videos showing the results.

[2] [3]

According to my experiments, the stem part works like a slide rheostat.


2. Freesia

[4]

Different sections of the flower can be different notes.

3. Leaves

[5] [6]

By experimenting with the branch, I found something interesting with it. When you touch the under part of the leaves or stems, the signal is almost same and sound is heavy. But when you touch the leaves with green and smooth side, you can get dramatical signal change.

Conclusion

When use this circuit and multiple buzzers or other different outputs, you can create a band consisting of plants with a live performance.