Interview with Jussi Aaltonen, WP1 leader (from Tampere University of Technology)

“Requirements and specifications are the easy part. The hardest is to design a robot complying them all.”

The UNEXMIN project is almost one year old. After a busy first year of work, UNEXMIN is on-schedule to deliver the first mechanical UX-1 prototype. Jussi Aaltonen, from TUT (Tampere University of Technology), leaders of WP1 – Robotic Functions Validations, talks about what has been done over the past year concerning his team’s work in UNEXMIN’s development scene.

 

Luís Lopes, LPRC: What is WP1 (Robotic Functions Validations) and what has been developed from it?
Jussi Aaltonen: The purpose of WP1 is to develop and validate a robotic platform, i.e. all mechanical and mechatronic structures, systems and components of UX-1 (the name of the robot). Also, low level (directional) control principles are developed and validated in this work package. WP1 has successfully established a robotic platform which fulfils all necessary requirements.

LL: How important is the work developed in WP1 for the future UX-1 robots?
JA: Work in WP1 is fundamental for the successful completion of the project. All later development stages rely on this work.

LL: The systems/subsystems that the robot will employ were defined in this WP. What can you tell about them? How crucial are they for the robot’s overall functionality?
JA: All systems are needed for the robot to achieve full functionality. However, survivability, i.e. the robot’s capability to return from its missions, is more heavily affected by some systems than others. It is, for example, possible to return with a broken multi-spectral camera, but losing a sonar may cause the robot to be lost.

LL: What kinds of tests were developed to test the hardware/software systems? How about the results obtained, were they positive?
JA: Tests are done as so-called hardware-in-the-loop (HWIL) tests in laboratory. In HWIL testing, computer simulations and real hardware components interact, making it possible to do laboratory testing more closely to real operating conditions. Components and systems have also been tested in the pool by using a plastic mock-up of UX-1. Tests have been successful, which, unfortunately, does not always mean positive results. But weaknesses were found and lessons learned.

LL: In what conditions was the prototype tested?
JA: Tests have been done in shallow depths (below 5 m) and moderate temperatures. Pressure testing at 60 bars (equivalent of 600 m depth) will start soon.

LL: The robot is designed considering stakeholders’ wants. How hard was it to define the requirements and specifications for the UX-1 robots?
JA: I have to say that requirements and specifications are the easy part. The hardest is to design a robot complying them all.

 

UNEXMIN meeting - visit TUT labs

Jussi Aaltonen explaining some robotics-specific topics.

WP1 is fundamental for the successful completion of the project.

There will probably be some heated discussions, but that is only a sign of people being passionate about their work.

LL: Being leader of such an important WP of the UNEXMIN project must be challenging. Has it worked out as you imagined? Do you feel that everything has been accomplished?
JA: Over this past year of cooperation, UNEXMIN teams from the various partners have gotten to know each other and each other’s ways of working. The possibilities to meet the others in person and to really collaborate in real life conditions, such as in workshops, have been a great benefit and a very important thing, bonding people from all around Europe together and working towards  a common goal. Of course there are always some challenges. The biggest challenge has been finding a common and efficient enough platform for information exchange.

LL: TUT will organise a UNEXMIN workshop in the beginning of February (2017) in Tampere, Finland. What can be expected to come out of this?
JA: This event will conclude the work of the first year in the UNEXMIN project. Most of the work packages have already started or about to start (exception goes to WP7: Demonstration/Pilots), and thus we will hear a lot about results and developments in this meeting. We will also hear about the plans for a couple of essential work packages starting right after the meeting. I expect that we will have a good and fruitful meeting with the same good spirit and warm atmosphere that we have always had. There will probably be some heated discussions, but that is only a sign of people being passionate about their work.

LL: You are a specialist in the robotics field. What possible impact do you think the UNEXMIN project will have on the robotics field?
JA: UX-1 [UNEXMIN robot design-prototypes] will have a very different structure and layout than what autonomous underwater vehicles usually have. This will most probably have some effects on the field of robotics and will open new doors to further miniaturised underwater robots – the future starts here. Also, the environment where UX-1 will operate is probably the most challenging after Mars and asteroid landers and that will also give tiger leaps in the field of robotics, developing new and better robotic systems.

LL: After one year, how do you feel the UNEXMIN project has progressed?
JA: We are roughly in the place where we should be according to our plans. Work has been harder than what was expected. On the other hand we learned a lot more, while we still have managed to keep in pace.

 

Do you have any specific questions you would like to have answered? Just write them in the comments!

UNEXMIN at the Budapest Water Summit 2016

From 28th to 30th November 2016, the “Budapest Water Summit 2016 (BWS 2016)” was held in the Hungarian capital. This event results from an intense cooperation between the Hungarian Government and the World Water Council aiming for cooperation, peace and development for countries that are aiming to be more sustainable, managing conflicts and global risks that concern water. The participants of the Budapest Water Summit 2016 discussed solutions to be adopted by international bodies, with guidelines within the “Budapest Statement 2016“.

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The UNEXMIN project Poster received a lot of curious visitors!

The University of Miskolc had their H2020 projects on an exposition – Sustainable Water Solutions Expo – to promote their projects internationally. UNEXMIN was one of these projects. The President of the Hungarian Republic met the Dean of the Faculty of Earth Science and Engineering of the University of Miskolc, the Coordinating organization of UNEXMIN.

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President of Hungary, János Áder, visits the exhibition booth of UNIM: On the left, Tamás Madarász, on the center, Péter Szűcs, dean of the Faculty of Earth Science and Engineering and on the right, János Áder, the President of Hungary.

Also in Hungary occurred the “Yearly Meeting of the Mineralogy, Petrology and Geochemistry Teaching Institutes of Hungary”, between 17-18th of November, where Norbert Zajzon, UNEXMIN project coordinator, presented a talk entitled “Preliminary results of the UNEXMIN H2020 project”, this one directed to participants from the fields of geology, mainly mineralogy and petrology.

UNEXMIN is developing a game-changing new technology line that will lead Europe to the forefront of areas like raw materials, robotics and water management.

UNEXMIN presented in “Semanas de la Ciencia y la Innovación en Canarias”

La Palma Research Centre (LPRC) team presented the UNEXMIN project in ‘Semanas de la Ciencia y la Innovación en Canarias‘, a scientific event which took place between the 7th and 11th of November across the Canary Islands, and which is regarded as one of the most important scientific events in the region.

During the week, UNEXMIN had a permanent exhibition with posters, brochures, images, and videos. This material communicated all the basic information about the project such as objectives, impacts, and preliminary results. Further information regarding UNEXMIN was communicated by LPRC staff in four separate oral presentations: these presentations included more detailed information about the project, and significantly improved awareness of UNEXMIN in the audience, and the wider community.

The presentations were mainly given to science-interested students and adults – an important group of stakeholders for this technology and science-innovation project.

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LPRC team members (left) answering questions from the young students about UNEXMIN’s multi-robotic platform.

UNEXMIN is a European-funded project, and it is required that there is a communication programme active throughout Europe in the hope the technology being developed is acknowledged by the majority of interested parties: the raw materials community, technology developers for minerals exploration, ICT and robotic solutions providers and the general public.

Dissemination activities will become more common – so if you hear about the project being in town, come visit us and find out more!

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Students present at the UNEXMIN presentation on Tuesday 8th November.

Madrid follow-up Workshop II

On the 25th and 26th of October, UNEXMIN partners met in Madrid at UPM’s facilities for a follow-up workshop related to developments of the UX-1 robot. Of importance to this meeting were UNIM, TUT, UPM, INESC and RCI – the partners responsible for the robot’s hardware, software and post-processing and data analysis. A constant exchange of information between these partners is vital for the project’s development. This was particularly noted after the latest crucial decision made for UX-1, the integrated pressure hull approach.

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Overall discussion occurring during the Madrid Follow-up Workshop

The first day of this 5th UNEXMIN meeting was dedicated to an overall review of the latest steps (including the Tampere mid-term meeting) and the status of the work packages defined in the project (especially related to the software and hardware of UX-1 and post-data processing and analysis). During the day, technical discussions were held which helped the consortium agree on details of future advancements of the multi-robotic platform.

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Technical discussion recurring to a board, a pen and criativity

On the second day, the group present at the meeting was divided into three main work groups – a way to facilitate and cover more discussion points and thus evolving into new ideas and consolidating current ones. The three work groups defined were the following:

  • UX-1 Mechanics
  • UX-1 Navigation Instrumentation
  • Stakeholders & related discussions

This topics covered the main points of discussion for the UX-1 most important developments at the moment.

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Discussion on the UX-1 navigation instrumentation workshop session

This follow-up workshop in Madrid allowed the UNEXMIN consortium to gain a greater perspective of what is being developed and the future steps that must be taken to ensure the best development for this unique and ambitious European project. The meeting was well organised – which always helps to create an environment conducive to the efficient exchange of ideas. Thank you to UPM (Universidad Politécnica de Madrid) for hosting this perfect meeting!

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UNEXMIN team present in the Madrid Workshop

UNEXMIN meeting in Tampere

In September, some of UNEXMIN’s project partners gathered in Tampere, Finland, to discuss the decisive approach and specifications for the UX-1 multi-platform robotic system. From this mid-term meeting, many conclusions were drawn which will now be put into practice. In late January/early February, the UNEXMIN team will have the robot’s hull first prototype available. From this point onward, it is going to be a snowball effect: putting together equipment combined with further trialling, testing, and development.

The UNEXMIN team gathered in Tampere to have fruitful discussion on the project development.

UNEXMIN team members discussing UX-1 strategic developments

In order to be fully operational, the robot must have a lot more specific subsystems. Most of these parameters work together and/or are intimately related. For the UX-1 robots, seven important subsystems have been defined:

  • Subsystem Main Component dimensions and weights
  • Perception system
  • Propulsion system
  • Ballast system
  • Pendulum
  • Power supply system
  • Computer

The above subsystems will ensure that the robotic system works at its best, working towards the project’s objectives.

The beautiful view from where the UNEXMIN team was working.

The beautiful view from where the UNEXMIN team was working.

Finally, this UNEXMIN meeting also led to the final decision on how the robot’s pressure hull (outer structure) will look – the subsystems defined in the previous point will fit onto this structure. There have been some internal discussions on two options: integrated pressure hull vs open-frame layout. After some discussion between the partners involved in the robotics part of the project, the decision went to the first approach. This option allows greater manoeuvrability for given weight and space.

The UX-1 robot’s pressure hull will be designed taking into consideration all the necessary equipment it will have to carry in order to do a perfect work during its surveying missions.