1. The IET/MATE Hong Kong Underwater Robot Challenge 2016 Basic ROV Workshop Dr Robin Bradbeer 22 January 2016Intro ROV Contest Briefing 20161

2. 22 January 2016Intro ROV Contest Briefing 20162 Video of 2015 Contest

3. The IET Hong Kong The Institution of Engineering and Technology (IET) is the largest professional engineering institution in Europe with around 250,000 members worldwide. It is the largest body awarding professional engineer recognition. The IET Hong Kong is the largest branch of the IET outside the UK, with over 5,000 members. 22 January 2016Intro ROV Contest Briefing 20163

4. A national partnership of educational institutions and organizations working to improve marine technical education in the U.S. and to meet the workplace needs of America's marine-related workforce and employers. 22 January 2016Intro ROV Contest Briefing 20164 The Marine Advanced Technology Education (MATE) Center

5. 24 regional ROV contests that take place across U.S. and in Canada, as well as countries like Hong Kong, Scotland, Egypt and Japan. Student teams from middle schools, high schools, home schools, community colleges, and universities participate in the events, which consist of different “classes” that vary depending on the sophistication of the ROVs and the mission requirements. 22 January 2016Intro ROV Contest Briefing 20165

6. Why? 2/3 the planet covered by water We know more about the surface of the moon than the surface of the earth 60% of the world’s biomass is under the oceans 22 January 2016Intro ROV Contest Briefing 20166

7. Objectives of the contest Increase the awareness and visibility of marine technical fields, educational and career opportunities, and potential employers, and to increase students’ understanding of the role that ROVs play in modern ocean engineering and environmental applications. Help students develop the skills necessary to enter careers in technical fields. These skills include the ability to problem solve, think critically, troubleshoot, communicate effectively, and manage projects. To enhance the awareness of teachers and students to marine conservation and the oceans’ effects on our planet and our lives. To provide a platform for design and technology students to partake in a practical design exercise with observable objectives. 22 January 2016Intro ROV Contest Briefing 20167

8. Objectives of the contest To enhance the awareness of teachers and students to marine conservation and the oceans’ effects on our planet and our lives. To provide a platform for design and technology students to partake in a practical design exercise with observable objectives. Increase students’ understanding of the role that ROVs play in modern ocean engineering and environmental applications. 22 January 2016Intro ROV Contest Briefing 20168

9. Competition Philosophy The ROV competition is about student learning. It is designed to be an event that challenges students to apply the physics, math, electronics, and engineering skills they are learning in the classroom to solving problems from the marine workplace. Mentors (teachers, parents, working professionals) are expected to limit their input to educational and inspirational roles and encouraged to focus on the benefits of the learning process and not simply on “winning” the competition. 22 January 2016Intro ROV Contest Briefing 20169

10. The Contest classes Three ‘classes’ of entry: Explorer for university, college and high school – qualifies for International ROV Contest Ranger for high school – top 2 HKG teams qualify for International ROV Contest Adventurerfor junior high school H K Scout for elementary/primary school Explorer and Ranger follow MATE rules; Adventurer and HK Scout do not. 22 January 2016Intro ROV Contest Briefing 201610

11. The missions – from 2006 2006 Ocean Observing Systems: Tools for Tomorrow's Science & Technology Workforce (NASA, Houston) 2007Celebrating the International Polar Year: Science & Technology Under the Ice (St Johns, Newfoundland) 2008Diving to the Deep: Uncovering the Mysteries of Mid-Ocean Ridges (Scripps UCSD, San Diego) 2009ROVs: The Next Generation of Submarine Rescue Vehicles (MMAA, Massachusetts) 2010ROVs in Treacherous Terrain: Science Erupts on Loihi, Hawaii’s Undersea Volcano (Hilo, Hawaii) 22 January 2016Intro ROV Contest Briefing 201611

12. The missions – from 2006 2011ROVs: rescuing the oceans; oil spills and other environmental disasters NASA, Houston) 2012Evaluating World War II shipwrecks and the potentially hazardous material that they may still contain. (Miami, Florida) 2013Ocean Observing Systems: Transforming Ocean Research and Launching a New Era of Discovery in the Oceans. (Tacoma, Washington) 2014Exploring the Great Lakes: Shipwrecks, Sinkholes, and Conservation (Michigan, USA) 2015Science and Industry in the Arctic St. John's, Newfoundland and Labrador, Canada 22 January 2016Intro ROV Contest Briefing 201612

13. Scoring The competition consists of underwater missions, technical reports, engineering presentations, poster displays, and safety with the following scoring breakdown: Mission - 300 points (max), plus a time bonus Engineering & Communication - 250 points (max) Technical reports - 100 points (max) Engineering evaluations - 100 points (max) Poster displays - 50 points (max) Safety - 30 points (max) TOTAL POINTS = 580 22 January 201613Intro ROV Contest Briefing 2016

14. 2016 missions EXPLORER and RANGER Outer Space: Mission to Europa Measure the temperature of venting fluid. Determine the thickness of the ice crust using pressure measurements. Determine the depth of the ocean under the ice using pressure measurements. Connect the Environmental Sample Processor (ESP) to the power and communications hub: o Retrieve the ESP’s cable connector from the elevator. Lay the ESP cable through three waypoints. Open the door to the port on the power and communications hub. Insert the cable connector into the port on the power and communications hub. 22 January 2016Intro ROV Contest Briefing 201614

15. 2016 missions 22 January 2016Intro ROV Contest Briefing 201615 EXPLORER and RANGER Inner Space: Mission-critical equipment recovery Survey the seafloor to find and identify mission-critical NASA equipment. Place the equipment in a collection basket for retrieval by a crane at the surface. Inner Space: Forensic Fingerprinting Collect and return two oil samples to the surface. Analyse a gas chromatograph of each sample to determine its origin.

16. 2016 missions EXPLORER and RANGER Inner Space: Deepwater Coral Study Photograph corals and compare the images to previous years to assess their condition. Collect coral samples and return them to the surface for analysis. Inner Space: Rigs to reefs Attach a flange to the top of the wellhead. Secure the flange to the wellhead with one bolt. Install a cap over the flange. Secure the cap to the flange with two bolts. 22 January 2016Intro ROV Contest Briefing 201616

17. 2016 missions 22 January 2016Intro ROV Contest Briefing 201617 ADVENTURER Marine Debris(Collect and return to the surface) One crushed and one whole soda tin from the seabed. Two plastic bags from the seabed Two plastic bottles from the seabed Two pieces of ghosted fishing nets Scientific Data Collection Retrieve an existing temperature data logger and deploy a new one. Collect six coral samples for analysis at the surface. Collect two crabs for analysis at the surface.

18. 2016 missions HK SCOUT Scientific Data Collection Collect corals for analysis at the surface. Collect crabs for analysis at the surface. Collect sea stars for analysis at the surface. Collect sea urchins for analysis at the surface. Collect fish for analysis at the surface. Manoeuvring the ROV Passing the entire ROV under an underwater bar (frame) 22 January 2016Intro ROV Contest Briefing 201618

19. 22 January 2016Intro ROV Contest Briefing 201619 More information can be found at: MATE ROVer information www.rovcontest.hk Email: info@rovcontest.hk

20. Hong Kong Workshops 24 October 2015Contest briefing 14 November/ 28 November 2015 Basic ROV workshops Mid-January 2016Advanced ROV workshops Mid-February 2016Arduino programming, motor control Mid- March 2016Advanced Arduino programming 16-17 April 2016HK Contest 23-25 June 2016International Finals, Houston, TX, USA 22 January 2016Intro ROV Contest Briefing 201620

21. Intro ROV Contest Briefing 2016 The IET HK ROV kit Based around 16mm pvc tubing Uses 3 bilge pump motors with impellors removed and replaced with propellers Uses two foam floats for buoyancy 3 5m lengths of speaker wire to get power to motors 3 sprung mid-position DPDT switches to control motor direction No soldering necessary – all wire joints crimped 22 January 2016 21

22. Intro ROV Contest Briefing 2016 The ROV kit The motors. The frame. Wire (umbilical)The control box 22 January 2016 22

23. The Basic ROV Workshop Check all parts are in your box/on the workbench. Use the parts checklist. Split into two groups; Electrical group Frame group 22 January 2016Intro ROV Contest Briefing 201623

24. The Basic ROV Workshop Frame group: a.Cut up plastic pipe as indicated: b.Use a small. – 2 x23.5 cm – 4 x19.5 cm – 2 x10 cm – 2 x 8.5 cm – 2 x 8.0 cm – 2 x 7.0 cm – 2 x 6.5 cm – 6 x 3.0 cm c.Assemble, without gluing, following frame on display d.Mark and drill holes, 4mm, to hold motor clamps 22 January 2016Intro ROV Contest Briefing 201624

25. The Basic ROV Workshop Electrical group: a.Split into two groups: i.Umbilical group ii.Switch box group b.Umbilical group: cut the long 16 m wire i.Cut 1m for power connection cable ii.Cut the remaining wire into 3 equal lengths (approx 5m – don’t measure!) c.Switch box group: wire up switch box as shown in the diagram. Use unit on display as a guide 22 January 2016Intro ROV Contest Briefing 201625

26. The Basic ROV Workshop Finally: Connect umbilical to frame and switch box Test all electrical connections (keep fingers away from propellers Glue frame and use cable ties to tidy up umbilical and provide tensioner at the frame Test in water tank 22 January 2016Intro ROV Contest Briefing 201626