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MicroDetector Ultrasonic Sensor Program Window Mode Configuration
In this video, we show how to configure a MicroDetector ultrasonic sensor with a teach button to the window mode configuration. We are using one of our UK series of sensors in this video. Press and hold the teach button for 8 seconds until both yellow LEDs flash, then release the button. Now press the button to select Window Mode meaning the right yellow LED will be on.
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Como proteger al planeta en 5 segundos
Today, we consume much more resources and energy than we need, but do we have time to solve it? Every day, over 75% of unnecessary energy is consumed by not taking advantage of natural light, use sunlight instead of light bulbs. 90% of office waste is paper and cardboard, check documents with a computer and use paper and pen only when necessary Coffee is used primarily by students and office workers, and 600 billion disposable cups are consumed annually, use a thermos, and bring coffee from home.
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Ritu Raman
Ritu Ramen: Hi everyone. My videos don’t always play when I transfer them over, so I’m being a little extra difficult. But my name is Ritu Ramen. I’m a postdoc in the Langer Lab. And I’m going to tell you a little bit about how we’ve been engineering living muscle and using them in machines. I’m a mechanical engineer by training. And my first ever job was not an engineering job.
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Luis Ruben Soenksen
Luis Soanksen: All right. Thank you so much. My name is Luis Soanksen. I graduated here, PhD mechanical engineering, but I also have been working at the Wyss Institute in collaboration with Jim Collins on a variety of topics, including another presentation you will see later on in wearable synthetic biology. But this is one that we wanted to present to you because we believe it’s actually pretty cool.
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Rachel Smith
Jack: Yes. So to begin this first chapter of our day, we’re just really looking forward to having everyone here to envision the future of biotech and biotech devices. But before we can launch into the future, we need to understand the present. And so we’re going to have speakers from a variety of disciplines and departments and places talk to us about their work in this field to inform and inspire the second half of the day where we will then begin prototyping and envisioning this really crazy future that you’ll be hearing about all day.
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Tzu-Chieh (ZiJay) Tang
Zijay: Hi everyone. My name is Zijay and I’m a grad student at Department of Biological Engineering here. I work with professor Timothy Lu at the synthetic biology center as well as Neri here. I would like to thank the organizers, this is amazing opportunity for us to brainstorm the future of biological wearables. Zijay: So today I’m going to talk about how we can actually grow these materials from kombucha cultures.
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Peter Nguyen
Peter Nguyen: Hey guys. So my name is Peter Nguyen and I’m from the Wyss Institute. And so, if you know us and what we do at the Wyss Institute, you know we’re focused on bio inspired technology. So that’s where I’d like to start, that’s where I want to start for the origin of our journey. Peter Nguyen: With original bio inspiration for any wearable technology, our largest organ the human skin.
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David Kong
David Kong: Hey, well thank you everyone. My name is David Kong. I am the last speaker between you and lunch. So this is a tough spot to be in, but I will move as quickly as I can. I’m going to talk fast, not as fast as Pat. That was like one of the fastest talks I’ve ever seen in my life. But I will try to be fast but not too fast.
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Katia Vega
Speaker 1: Great. So that, was an awesome first chapter in our journey. Again thank you to all the speakers for just the crazy things that you’ve talked about and I’ve been thinking about and I’m excited to talk about more today, but before we get there, we’re still learning. So now we’re going to shift away from looking just a little bit. Looking at bacteria in their ability to produce materials and now actually looking at bacteria as displays and as input devices.
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Pat Pataranutaporn
Speaker 1: So, we are halfway through the talk sessions. And so, in this next session, we’re going to be looking and unpacking the word augment, or how can we use biology and synthetic biology to improve or enhance the things that already exist? So, maybe before, it was a little bit about making completely new things. Now, it’s about looking at the things that we have and improving them and augmenting them with these really great tools and technologies that we have in biological engineering.