WeMake provides four major services, which include customized dolls, pattern engraved phone glass film, customized accessories and print whatever you want. WeMake has implemented four advanced technologies to explore new business opportunities and attract customers. They are 3D scanning, 3D printing, augmented reality and cloud computing with the usage of mobile devices. First, customers would select the services and upload photo to the WeMake website. With the augmented reality technology, a preview of the product could be provided for customers. Once customers are satisfied with the preview, WeMake would print the product and deliver the finished product to customers. WeMake would always follow our mission: Whatever it takes, WeMake.
Industrial and Manufacturing Systems Engineering
This project aims to design and develop a smart soccer robot by using some typical engineering techniques such as laser cutting, 3D printing, CAD design, Arduino control, etc. Students are able to learn different engineering principles and skills in the modern world, with an emphasis on engineering innovation, businesses, systems, and entrepreneurship, and how to bring new ideas to market in both engineering startups and corporate settings.
This smart pet keeping system includes multiple modules such as neck device, cameras, motion trackers and pet toilets. The system has three main features, an entertainment system (Remote control toy), a monitoring system (Danger Alert) and a health care system (Health Tracking). It aims to help saving time on pet keeping, keep pets healthy, keep a close relationship between pets and pet owners and put an end to abandon pets.
Harvesting mechanical energy from human motion in day to day life is a very attractive way of creating sustainable electric energy and a piezoelectric shoe exactly does that. Since it is a wearable energy harvester, it is very convenient to use it and has many advantages which will be discussed further. It generates electricity through piezoelectric effect in the shoe and stores it in a battery which can further be used to charge your phone. When a person walks electrical energy is produced and that energy is stored in the battery.
The Smart Life Vest which aims at increasing the efficiency of rescue operations in water. The primary features of the Smart Life Vest include sending automatic SOS signals containing the wearer’s GPS location to the nearest rescue station using radio or microwave signal, which will immediately alert the rescue party of an emergency. The Smart Life Vest will also produce its own power using a built-in wave generator and make use of chemicals that react with water to facilitate its auto-inflation mechanism. Both of these will increase the shelf-life of the Smart Life Vest and reduce the maintenance cost.