Despite significant advancements in technology, there are still many challenges faced by people with disabilities in their daily lives. ASSISTIVE TECHNOLOGIES have the potential to transform the lives of millions of individuals, providing them with greater independence, access, and opportunities. However, there are still many areas where these technologies fall short or simply do not exist.

That's where the Build2gether Inclusive Innovation Challenge comes in. We're calling on innovators worldwide to design cutting-edge technologies that address the unique needs of individuals with disabilities, with a total prize pool worth up to $40,000. This competition is organized by ETH Zurich and hosted by Hackster.io. As a hardware sponsor, M5Stack will provide all-round support for the participants.

Participants are encouraged to build innovative solutions across three themes: GAMING for people with mobility impairments, TRAVELLING for people with mobility impairments, and SWIMMING for people with visual impairments. All themes will run concurrently, allowing participants the flexibility to choose and engage in any or all of them.

But what sets this contest apart is the opportunity to directly engage with representatives of the disability community through Discord channels. Participants will hear firsthand about their problems and needs, and work together to create truly inclusive technologies.

To help participants get started, 250 hardware kits are available for application until August 20, 2023, at 23:59 Pacific Time. M5Stack provides 50 gift cards of 40$ value, which can be used to buy M5Stack hardware, such as the Core2 and other powerful ESP32 microcontrollers as well as multiple sensors. And in addition to gift cards, M5Stack will provide extra support to contestants who choose to use M5Stack hardware.

The competition will end on November 30, 2023, at 23:59 Pacific Time. Join us in building a more inclusive and equitable future for all. Scan the QR code on the image or visit https://www.hackster.io/contests/buildtogether to access the competition page and learn more.

Born on July 2, 2021, the adorable Stack-chan has just celebrated its second birthday!

What is Stack-chan?

The name Stack-chan (スタックチャン) may sound strange, and what is its relationship with M5Stack?

Actually, Stack-chan is an open-source robot project created by a user of M5Stack named Shinya Ishikawa. The name "Stack-chan" comes from the fact that it is built using M5Stack hardware, which is a modular system that allows users to stack different modules together to create custom electronic devices.

"Chan" is the Romanized pronunciation of the Japanese honorific suffix "ちゃん", which is a suffix in Japanese that is often used as a term of endearment or to show familiarity, similar to "dear" or "sweetie" in English.

So, "Stack-chan" is a cute and friendly name that reflects the robot's playful and approachable nature. Due to its cute and interesting appearance, it has gained a lot of popularity among users and even formed a unique subculture.

The exclusive Twitter account for Stack-chan: https://twitter.com/stack_chan

"It's just so cute, you can't stop loving it."

At first, Shinya Ishikawa simply wanted to create a 100% open-source robot, but he never expected that this little robot would be loved by so many people, and even have the potential for mass production in the future.

Shinya noticed that most of the communication robots on the market are "closed", dependent on specific proprietary services, or their specifications are not disclosed to the public, and reaching the end of life as their backend services go by.

"Why don't they make communication robots more open and hackable?" It is the problem and why Stackchan was born. As a solution, He decided to create an open-source robot that anyone could build from scratch. This means that open community, rather than a closed, specific company or individual, will collaborate to grow the robot.

Based on this idea, in 2021, the prototype of Stack-chan was created. The robot consists of a case, an M5Stack’s controller Basic, which is a modular, stackable, and portable device with an ESP32-based microcontroller,  a dedicated expansion board, and firmware. Each component is fully customizable. The functionality as a communication robot is provided in the form of a framework, which users can easily access through applications (mods). M5Basic is equipped with wireless communication functions such as Wi-Fi and BLE, so it can be used with external services, smartphones, and other robots.

The most important feature of Stack-chan is that everything is open.

Stack-chan is open in two aspects.

First, All the resources of Stack-chan are distributed under Apache-2.0 license, including the schematics, the 3D model of the case and the firmware.

Second, Shinya opened up not only the source code and model data for Stack-chan but also the entire process of creating it. In other words, he shared widely the background issues, the decisions I made, the troubles he had, and the mistakes he made so that users can learn how to make and customize Stack-chan. People can follow the process by searching its official Twitter hashtags #stackchan, #ｽﾀｯｸﾁｬﾝ on Twitter.

As a result, more than 30 enthusiasts soon began making Stack-chan, with applications ranging from voice assistants to quadruped robots, making Stack-chan's applications diverse and interesting. To date, over 500 users have joined Stack-chan's Discord group.

AI Stack-chan

https://twitter.com/robo8080/status/1631224076005179393

As more and more users joined, Stack-chan's form and use became more diverse. Earlier this year, Chat-GPT became popular, and many users started trying to connect M5Stack devices to OpenAI's API. User @robo8080 combined Stack-chan and Chat-GPT to create an AI version of Stack-chan. The intelligence level of the AI version of Stack-chan was significantly improved, and it quickly gained a lot of attention and popularity.

https://twitter.com/lewangdev/status/1675709684664369153

Stack-chan themselves has no special mission to solve. They just live. They have multiple communication modalities such as speech and gaze. In despite of its small size, Stack-chan has a very lifelike appearance with its eyes and breathing.

This behavior is achieved by simulating neurophysiological phenomena such as saccadic eye movements.

But who cares about the detail? However, what truly matters is that everyone treats Stack-chan as a real child and loves it dearly. In fact, some users have even started discussing what style of commemorative shirts to create for Stack-chan.

Recently, Nanyang Polytechnic's (NYP) announced the four winning teams for the M5STACK-NYP Exploration Project.

NYP Diploma in Electronic & Computer Engineering has developed an exciting new course that challenges students to design innovative smart technology solutions for retail, urban farming, smart factories, and healthy lifestyles using M5Stack's products and platform. The 30-hour course is divided into four parts, with a focus on learning about M5Stack and the UIFlow IDE, programming with IoT controllers and sensors, completing assignments and quizzes, and creating group projects.

As a partner and supplier of software and hardware for this course, M5Stack is thrilled to see the creativity and enthusiasm of the students and believe the benefits of this course go beyond improving learning and increasing students' employability since it also creates opportunities for future technological advancement that will make the world better.

In the following paragraphs, we will introduce the top teams' projects and show how they have used M5Stack's technology to create amazing solutions for some of today's most pressing challenges.

Smart Energy Efficient Urban Farming

Electricity tariffs in Singapore are rising, and research has shown that factors such as artificial light, plant competition, overwatering and humidity can affect plant growth in urban agriculture. In light of this, this project aims to develop sustainable and energy-efficient practices to address these challenges and promote environmental sustainability in urban agriculture.

To achieve this, the project includes several innovative technologies, such as a height checker that uses a TOF sensor to measure plant growth and plots the data on a dashboard. An automated sunroof adjusts the amount of natural light entering the greenhouse using a light sensor, while a moisture sensor monitors soil moisture levels to prevent overwatering. The project also features an air conditioner that uses the ENV II Unit to regulate temperature and humidity levels in the greenhouse.

Project Link: https://www.hackster.io/anti-semites/smart-energy-efficient-urban-farming-ef4777

PEST TERROR

Urban farming has become an increasingly popular way for people in urban areas to grow their food, but it also comes with its own set of challenges, including pest management. Traditional chemical insecticides can be harmful to the environment and can contaminate the food grown, making it necessary to develop alternative pest control methods.

This project aims to address the challenge of pest management in urban farming without relying on human intervention or chemical insecticides. The project utilizes  M5stack’s iot controllers and sensor, to simulate an automated pest control system that could be developed to effectively manage pests in urban farms.

It includes an antenna system and a robot to detect and eliminate pests. The antenna system has an automated water sprinkler that sprays garlic-infused water, which is a natural repellent, and produces ultrasound waves that some pests find irritating. If a pest that is resistant to garlic water and ultrasound is detected, the antenna system signals the robot to eliminate the pest.

The robot acts as a natural deterrent to birds and has flashing lights and vacuum guns to eliminate pests. The project offers an alternative solution to traditional chemical insecticides and promotes natural pest control in urban farming.

Project Link: https://www.hackster.io/500784/project-pest-terror-3ba3f2

Bee Integration into Commercial Urban Farms

Many commercial urban farms are closed systems, meaning there are no natural pollinators such as bees, butterflies, and birds to provide pollination to crops that need it. This can result in inefficient manual pollination methods being used, which may decrease crop yield and quality.

The project aims to solve the issue of pollination in commercial urban farms by using sensors to integrate bees into  farms and optimize pollination rates while tracking the health of bees automatically.

To achieve successful integration of bees, the project focuses on two key areas: high crop yield and automation. The solution for achieving high crop yield involves a checkpoint system that counts the number of bees and manipulates their movement to achieve optimal pollination rates. The solution for automation involves using sensors to monitor the temperature and humidity of the beehive and indicating the health of the bees using an LED.

Project Link: https://www.hackster.io/jschong117/bee-integration-into-commercial-urban-farms-9dabb3

Urban Farming Overseer

Challenges in urban farming include fish deaths due to toxic ammonia levels from fish waste, difficulty growing certain foreign plants due to inadequate weather conditions, mass crop deaths from inconsistent watering in soil-based vertical farms, increased expenses and prices due to manual monitoring of plant and fish health, and reduced crop yield from pest and disease outbreaks.

This system helps urban farmers remotely monitor internal conditions in their farms without needing to manually do it themselves. By measuring ammonia levels in fish farms, moisture levels in soil, and overall temperature and humidity, Urban Farming Overseer allows farmers to quickly identify suboptimal conditions and notify personnel to arrange for more efficient maintenance.

Project link: https://www.hackster.io/gawain2/urban-farming-overseer-eb0fd4