SislerIDM students will be #DesigningOurTomorrow w/ Cambridge University, Mayo Clinic & the University of Winnipeg – April 30 – May 4

Hey SislerIDM students, preparation begins today.

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About Designing Our Tomorrow

source:  https://www.cam.ac.uk/news/designing-our-tomorrow-resources-to-inspire-the-next-generation-of-engineers

New resources designed to inspire the next generation of engineers by bringing authentic engineering challenges into the classroom have been launched today by the University of Cambridge.

These workshops create a different atmosphere for learning, encouraging teamwork, innovation, and thinking about problems in a multi-dimensional way.

Heba Bevan, PhD Researcher in Low-power Wireless Sensor Networks, University of Cambridge Centre for Smart Infrastructure and Construction,

Designing our Tomorrow (DOT) is a joint project of the Department of Engineering and the Faculty of Education at the University of Cambridge.
Working in partnership with leading engineering companies and local schools, DOT has developed a distinctive teaching approach and a unique set of resources, ‘DOT in a Box’, for teachers to use in Key Stage 3 Design and Technology classes.
The three boxes being launched today are: Inclusive Design, Sensor Circuits and Picture Holders.
Each box includes a complete set of teaching resources, which would normally cover 12 D & T lessons.
“Inclusive Design” sets the challenge of designing more inclusive cutlery. The BOX includes a set of gloves and glasses that mimic the effects of human aging – the gloves restrict dexterity in a similar way to arthritis; while the glasses mimic the way vision declines from the age of 47.
Immersion in these and other creative/analytical tools contained in the BOX become the starting point to authentic engineering design challenges.
To help ensure that the case studies and challenges are authentic, leading engineering companies helped to develop the teaching resources:

  • Cambridge Design Partnership contributed real-world industry case studies to inspire the students, including the design of Dulux PaintPod, a self-cleaning powered painter; and the Waterpebble, a small device with complex electronics to measure water usage in the shower. “We enjoyed the opportunity to demonstrate how interesting product development and engineering work can be, and share this in the classroom,” a spokesman said.
  • Heba Bevan, PhD Researcher in Low-power Wireless Sensor Networks at the University of Cambridge’s Centre for Smart Infrastructure and Construction, said: “Engaging with students in a creative and relevant way at the age of 13 and 14 is critically important to develop analytical skills and a lifelong love of problem solving. These workshops create a different atmosphere for learning, encouraging teamwork, innovation, and thinking about problems in a multi-dimensional way rather than in a linear input-output manner. I believe that widespread implementation of DOT will lead to an significant increase in the number of students that pursue careers in science and engineering.”

BT, Marshalls and Chesapeake also supported the development of DOT in a Box.
The project has been piloted in a range of schools, including a number from Cambridgeshire to make sure that the resources work for teachers and pupils.
The most recent pilot was funded by the Royal Academy of Engineering through its Ingenious grant scheme.
Ian Hosking, Senior Research Associate at the University of Cambridge’s Engineering Design Centre, said: “Everything is designed. It is how we shape the world around us. Designing Our Tomorrow is about equipping students to design their futures and in particular address the global challenges of population ageing and environmental sustainability.”
Bill Nichol, Lecturer in Design Education at the University of Cambridge’s Faculty of Education, said “Although 71% of 13 and 14 year olds interviewed for the project said that engineering was ‘cool’, less than half felt challenged by their lessons and only 38% said they were considering a career in design and technology.
“By developing and delivering inspirational resources for teaching Design & Technology at Secondary level, DOT hopes that all Key Stage 3 students will enjoy challenging lessons and be inspired to consider design as a real and rewarding career path.”


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About DOT

DOT brings together the expertise of the Faculty of Education and the Engineering Design Centre at the University of Cambridge. DOT has developed its resources with industry experts, teachers and pupils. DOT partners bring authentic engineering practice into the classroom. It is made an integral part of the lessons through informing:

  • Thinking Tools (not just hand-tools)
  • Process and methods
  • Project case studies
  • Engineer profiles and careers.

The DOT teaching philosophy is backed up by academic research. DOT resources map to the new National Curriculum and GCSE Specifications for D&T in England and Wales and align with the STEM agenda.

The Hole at the Heart of STEM

Science and maths help to explain the world around us and engineering and technology applies this knowledge to solve problems. Much of STEM teaching fails to address the societal need and context which makes learning meaningful. DOT understands that context is critical to the engagement of pupils and as such immerses them in the solving of real-world problems.

History

The Faculty of Education and the Engineering Department started collaborating in 2009 bringing together two long-term, world-class areas of research in inclusive design and creativity in education. This led to an initial EPSRC funded project called Designing Our Tomorrow (DOT) in conjunction with Loughborough University and the Royal College of Art who were partners in the inclusive design research through the i-design programme.
Since this initial project the DOT team has worked on various projects with partners to develop resources for schools leading
to their public launch in May 2017 to address the needs of the revised Design & Technology Curriculum.

DOT Partners

DOT looks to partners to bring authentic problems and practice into the classroom, providing early secondary school students with a way to affect the world around them through engineering and design. Partners to date have included: ARM; Peter Brett Associates; RAEng; Engineering, EPSRC; ESRC; and British Printing Industry Federation.