3D Printed Smart Mobile Author: Bingfang Chen - Mentor: Professor Farrukh Zia Computer Engineering Technology Department ABSTRACT 3D printed smart mobile is one of the interesting project of CET Department. The 3D printed smart mobile such as 3D printed smartphone, Micromouse robot and so on, they have the advantage of 3D printing, is that it can help businesses to cut their costs and time by reducing the amount of storage space they need. Therefore, everyone has 3D printed smart mobile instead of the experienced machine, the state can be natural thing in the future. INTRODUCTION The research project about the micro-mouse is the combination of 3D printing and the smart micro-robot that must find their way from a predetermined starting position to the central area of the maze unaided. It needs to cost $150 on the original design. However,we are design material by 3D printing on the Tinkercad of software design App because we can reduce material wastage, especially where expensive materials are being used. Each sensor cost me $3.45 for printing since I chose detailed material other than cheapest strong flex plastic. On the other hand, we use the Arduino Uno motor to control the smart mobile. BLOCK DIAGRAM 3D Design from Tinkercad & printing material. an example of diagram of circuit: An example of Micro-mouse model: PROGRAM CODE lesson 24-DC motors: CONCLUSION In conclusion, this project is highly proving that we use 3D printing is combined with robot due to reducing high cost of the fee, and still save the high quality of the product. I believe that more and more people can use high-technical products on common life in the future. HARDWARE 3D printing machine. Arduino Uno. Motor. 3D material. FUTURE WORK In the future, I will test the speed and memory of micro-mouse, also the quality of 3D material. ELECTRICAL CIRCUIT REFERENCES http://micromouseusa.com https://www.tinkercad.com/things/2bVEOkN83sO-grand-lappi-maimu/edit?sharecode=xjdh5BJTU6KixtoA1hXjInzaiOpwCuTDHdQ2s087Uv0= learn from Super starter kit for UNO R3. ACKNOWLEDGEMENTS Emerging Scholars Program 2019