Proyecto STEAM 1.Biomimesis.Trampa mosquitos inspirada en los glow worms. Arduino. - Contenido educativo

Hello, we are students of Tercera ESO and we are going to talk about our project of the Globo. 00:00:00

The Globo Invencil is the science that studies nature, both animals and plants. 00:00:05

It uses its ideas to create inventions that help to create inspiration, to recreate sticky threads with elastic thread. 00:00:13

In my license is the ability that some living beings have to emit their own natural light, such as jellyfish or lizards. 00:00:40

This has helped us to add a light similar to that of the Lord Worms. 00:00:53

Its scientific name is Lampiris loctulica. 00:01:00

They mainly live in New Zealand and the fruits or dark forests and humus. 00:01:08

Its life cycle is composed of four phases. 00:01:21

The first phase, which is the egg, is when the females deposit the white eggs. 00:01:25

This process lasts between two and three weeks. 00:01:31

The second phase is the larva. 00:01:40

For nine months, the larva manufactures a silk nest, 00:01:43

rope, and thread. 00:01:49

It produces a greenish blue light to attract mosquitoes that get caught in the threads. 00:01:53

The third stage is the pupa. 00:02:00

and it is when the larva suspends its growth process and gets stuck in a chrysalis that hangs from a tree. 00:02:03

And the fourth and last phase is the adult phase, and it is when it includes two adult houses and does not have vocal parts, 00:02:13

so its only purpose is to mate and lay eggs before it dies. It has a short life of just three or four days. 00:02:20

The brave house that opens in the darkness so that the insects are not stuck. 00:02:28

The light can be turned off completely if the insects are afraid or scared. 00:02:38

The cave must be very dark so that the light can be seen and it has to be wet so that the locusts do not follow. 00:02:43

We have laid out the light, the arrow represents the light of the insects, the threads with adhesive tape make of threads with mokopea hosso and the platform makes of roof in the cave. 00:02:52

The structure of the cave, the hangers serve to hang the threads with adhesive tape. 00:03:12

The Arrolet in the upper form allows us to keep the arduino board and cables safe. 00:03:24

In TicketCard we first put a block and we gave it the real size it needed for the Arrolet to work. 00:03:38

Then, to make the holes, we used invisible cylinders, which we placed symmetrically in the shape of a V, 00:03:46

and finally we selected everything and gave it to group, and by doing this, the invisible cylinders were converted. 00:03:54

This part explains the connections that we have in our Arduino program. 00:03:59

We use three connections, ND, which is the common ground, VCC of 5 volts, which is the one that gives the power to the energy area, 00:04:13

and pin 6, which is the digital area and sends the data signal to the Arduino DIN. 00:04:22

The program basically simulates the progressive bioluminescence of the globulins in three phases. 00:04:29

First, the library and configuration, import Adafruit NeoPixel and define the number of Ls and the pin that we are going to use. 00:04:36

The base color of the ring is a light blue type with these parameters, which imitates the frequency wave of the glow world. 00:04:46

Then the brightness control. In Void Look we use two for loops that go up and down the brightness from 20 to 255 and vice versa. 00:04:56

How do we do this? By multiplying the character. 00:05:08

We have created a variable that is 5 seconds or 5.5 seconds between the brightness steps. 00:05:10

What does this do? It creates a smooth and continuous transition. 00:05:26

The program is this and here we have the components, which is a plate that has the cables connected in 5V GND to the side and the cable of 6V, no, of 5V, no, of data to the OLED. 00:05:31

Here the data is here on the side, the batteries are behind. 00:05:54

Mounting demonstration. To mount it, we have to fix the plate of the cave to the top of the platform and through the rear hole, the plate is connected with the battery, 00:06:01

It is lined with holes and we pass the threads with adhesive tape through the holes, letting them flow down. 00:06:23

The advantages of the incommunicator can last many months since it is built with plastic that is very resistant 00:08:46

and the only thing is that the batteries, if they are used every day, you will have to change them. 00:08:54

One advantage is that it does not use insecticides and also the mosquitoes stick easily since they are attracted by the clouds. 00:08:58

Other disadvantages are that you have to be in constant vigilance since the batteries can run out and you would have to change and also mosquitoes or have pollen. 00:09:08

Thank you very much. 00:09:29