Wednesday, April 14, 2010

Zzyzx Spaceward Bound Trip (March 28th - April 2nd, 2010)

I've returned from a week-long trip to Zzyzx, CA with other members of the rover team and participants in the NASA Spaceward Bound project. Our group included a number of educators, scientists, and science students who worked on several different science projects during the week, such as science balloons, lava tube caving, and underwater microscopy. Our rover team provided one of the science projects with the participants operating the rovers out in different field environments each day. We operated on and around old lava flows, inside a lava tube, on a dry lake salt flat, and at night using a light attached to the rover's camera turret.

One of the highlights from the trip having the 5th grade students from Rob Palassou's Science Club from San Francisco operate one of the rovers at Zzyzx. They were broken up into teams of two students, where one team would hide an orange road cone within a bounded area, and another team would have ten minutes to search for it using the rover. The rover operating team were located in a nearby building and could only use the rover's camera to find the cone. The teams were cycled through so all the kids had a chance to hide and also search for the cone. Of the seven teams, two were successful at finding the cone target. All of the kids seemed to really enjoy the experience.



One the last day of the field operations, we set up a boom WIFI antenna on a hill at the Zzyzx science station and drove one of the rovers out on the dry lake salt flats to see how far it could get before the communication became too weak. The rover made it about half a mile away from base before it lost communication and we had to trudge out onto the muddy salt flats to retrieve it.



NASA Spaceward Bound Trip Info

Sunday, August 16, 2009

Rovers Delivered

The Mars Society NorCal chapter held its regular monthly meeting on August 16th, it was a very special meeting, the group was joined by Andrew Klofas from Senseta who delivered the assembled project rovers! The delivery was preceded by a formal review and acceptance of the hardware by Dr. Chris McKay, planetary scientist at NASA Ames, and the NASA Ames procurement team at a demo held at the CMU/Senseta robotics lab staff on July 27th. The acceptance demo included software and hardware demonstrations and a discussion on applications of the rovers at the MDRS, for educational outreach, and astrobiology/geology field science.

The NorCal team is now ramping up its activities around the rover project, members are engaged in setting up and helping develop the rover's kernel core and controle console software. This is now an open source project and a post on it will be published in the coming weeks. Delivery of the rovers will be followed by more testing both locally and again in the Mojave desert. Of primary importance is to gather more data on the performance of the wifi network components as remaining purchases of communications equipment rely on this data. Mechanical testing will give us the final data needed in order to complete the design of the facility (rover base) which will eventually house the rover while deployed at Mars Society's MDRS research station in Utah. Also the team is setting up the infrastructure for sharing future documents and information related to the rover project online with current and future collaborators and educators. As the rovers will also take part in a science and engineering outreach program in Bay Area schools we are ramping up activites related to documentation and presentation materials.

Lastly, a word of caution to those of you embarking into projects, or their management, involving government organizations trying new modes of cooperation with industry and advocacy and non-governmental groups. Budget extra time for the project. We have seen a string of delays which were generally caused by organizations trying to accomplish or process things outside their usual operational comfort zone. While always having support of dedicated individuals, it was several time necessary to readjust the initial project plan and in order to stay inline with established procedures, even though often some of these seemed out of proportion relative to the modest project budget. On the other hand, the extra time it took to get to this point was not all lost. Some of it was recouped by newer and more affordable communications technology which we conciously decided to purchase only once the rovers are delivered. This is possible as we are a nimble group and can handle changes in the project, this ability of course decreases as groups involved grow in size.

In any case, the equipment arrived and our group is excited to get rolling with all the ideas we discussed over the last several months. We are open to contributors and cooperation with other groups and individuals in science and education fields. For further information please contact the NorCal chapter of the Mars Society.
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MS NorCal chapter members with the project rovers

Friday, August 7, 2009

AUVSI and ISU Presentations

Presentations were recently made to two local groups that featured the exploration rovers that were recently acquired by the Northern California chapter of the Mars Society.

Dr. Chris McKay, Geoff Chu and Andrew Klofas discussed the rovers and their purpose with an enthusiastic crowd at the August 4th meeting of the Association for Unmanned Vehicle Systems International Silicon Valley chapter (AUVSI-SV), held at the Flight Operations Center at Moffett Field. Attendees enjoyed the opportunity to control one of the rovers on the lawn in front of the Flight Operations Building.

One of the attendees of the meeting requested a rover demonstration for an educational outreach project he is affiliated with, and another expressed interest in helping prepare the rovers for their intended uses. One rover will be stationed at the Mars Desert Research Station (MDRS), a Mars analog research facility in Utah sponsored by the Mars Society. The other rover is earmarked for the Mars Society's education outreach program in the Bay area.

On August 7th, David Bushman, President of the AUVSI-SV, assisted by Geoff Chu and Andrew Klofas, spoke to a group of approximately 25 systems engineering students and staff at the International Space University (ISU) at the ISU campus near NASA Ames in Mountain View. Geoff and Andrew demonstrated the rovers' capabilities while David Bushman talked about the rovers' abilities and potential uses, including the ability to operate in fragile environments such as the cryptobiotic soil crusts in the Mojave Desert without damaging them, making them an important tool in investigating similar fragile life forms. He also discussed the Mars Society's rover programs for educational outreach intentions and for the Mars Desert Research Station. David, Geoff and Andrew answered many questions about the rovers and their use in research.

Thanks to David Bushman and Shirley Brim for this report. Below, attendees of the ISU presentation.

Monday, September 29, 2008

September - Outreach Month

We end September logging two rover related outreach events. Chris McKay (the Principal Investigator on the rover project) and Michael Sims, both researchers from NASA Ames, and Khalid Al-Ali from Carnegie Mellon University held a talk titled "Rovers in the exploration of extreme environments on Earth, the Moon, and Mars". The talk was held at the NASA Exploration Center and was specifically open to school children. The audience was taken through a range of topics. From motivation and reports on science done in the Antarctic and Mojave desert and the relation of those environments to the search for life in the Solar system. Through the motives at CMU to develop a rover which is accessible, flexible and easy to operate in science missions, without impact on fragile desert crusts on which we may look for the presence of self organizing patterns left by primitive life. Finally Dr. Sims concluded the talk with a retrospective of Lunar and Martian robotic exploration and the most significant results it yielded. The talk ended with the children taking center stage and blasting the lecturers with questions on all angles of space exploration.


The second event was the Sally Ride Science Festival held at Moffett Field across NASA Ames. The Festival is geared towards girls and its aim is to let them engage in science related activities and workshop for a better part of the day. Discovery workshops and tables were set up by NASA Ames groups and local Bay Area groups. A talk was given by Astronaut Wendy B. Lawrence. The Mars Society Northern California chapter has traditionally been present at the Festival and it did so this year too, with an exhibit showcasing the exploration of Mars, its importance and major results results. Girls were invited to step into some of the problems of performing work in space with our simulation kit. Our presenters also displayed a simple rover autonomy demo with a look under the hood of the control software and a simple teleoperation demo with a laptop monitoring setup. We have also used the opportunity to present the NorCal Rover project and make contact with educators who are interested in future rover science classroom presentations. Here are some pictures from the event.





Wednesday, June 11, 2008

NorCal Rover Group Outreach Event at NASA Ames

A unique two-week program, under way at the NASA Ames Research Center in Mountain View, is providing specialized training in mathematics and science for California State University, Fresno students eying careers in teaching at schools with a high percentage of minority students.

The Pre-Service Teacher Institute is funded by NASA Ames' Education Office at Moffett Field through a grant to the Teaching Fellows Program at Fresno State and Integrated Space Technologies (IST), Inc. of Huntsville, Alabama. The two-week workshop is designed to increase knowledge, skills and competence in teaching mathematics and science using technology.

The future teachers from Fresno State will be exposed to problem-based learning, mathematics and science enrichment activities at the workshop, which is one of eight such institutes funded by NASA at its centers across the nation and the first one at its California center.

The NorCal Rover team took part in a two hour session with the teachers to present the rover project and it's science and engineering objectives at Mars analog environments on Earth. The latter part of the session was a hands on demonstration of the rover and it's features by Senseta and NorCal staff.





Tuesday, May 20, 2008

Field Testing Report - Mojave Desert Studies Center

Dr. Christopher McKay, Planetary Scientist from NASA Ames Research Center. and the Northern California Chapter of the Mars Society (NorCal) Rover Team conducted a rover field testing trip to the Mojave desert from 21-23 March 2008. The purpose of the trip was to test the MAX 5 rover, a product of Senseta Incorporated, in field conditions planned for future Spaceward Bound activities and to introduce NorCal Rover team members to rover operations.

The aim of the field testing trip was to perform rover operations and gain insight into further planning of future operation at the Mars Desert Research Station (MDRS) in Utah and in outreach in the greater San Francisco Bay Area. It was also an opportunity for the NorCal Rover Team and Dr. McKay to evaluate the steps related to configuring and options for final purchase of the rovers as well as provide some time for NorCal Rover team members to gain insight into the obstacles which need to be resolved in order to meet the goals in the Spaceward Bound project proposal. Field testing was conducted at the Mojave Desert Studies Center (DSC) at Zzyzx.

The assembly operations and first part of testing took place in the hall of the DSC. First on a plain course later changed into one with artificial obstacles. The outdoors testing took place on several locations close to the DSC. The outdoors testing provided good ground for evaluating rover performance and rover impact on its environment. While the Mojave provides similar ground surface features to the target environment in the Utah desert it must be noted that ground coverage with desert plants is different and more challenging then the one for which the science rover is targeted.


Testing was subdivided into several categories:


Evaluate rover assembly and maintenance procedures in field conditions.

It takes some time to setup the rover and in a noisy wifi environment. Connections can drop between rover and laptop. This could use improvements in wifi robustness (software) and setup time (documentation). The communications issue could be a problem in a school but less so at MDRS. Once the rover is up and running it's fairly stable. Battery change has to be foolproof and simpler. We tested a rover with one camera, we need both of them operational as it will help in driving the rover. There's frame lag and this could use some research into compression and the practical limits of wifi. Battery lifetime could be improved by LiIon in future models.

Test rover maneuverability; in a controlled environment; in the field and by team members with different skill levels.

Driving the rover in the room was not that easy. Using the joystick as a controller is not intuitive at first. When driving there is a number of parameters on the screen which need to be tracked for a successful drive. Moreover in the room watching the rover interfered with the actual testing, training should probably conducted in adjacent rooms or with the operator turned with his back towards the rover. Certain basic rover moves should be introduced right at the start of training. Some of them could also be part of a standard library of moves, i.e. various turns and patterns. This would greatly aid the operator. Also keyboard support should be a high priority. We should come up with a standard rover course beginners should try to navigate.

Test rover capabilities in a desert environment resembling the MDRS Utah location.

During the afternoon we went to the desert and drove the rover in desert terrain. It was easier on that field than in the DSC room. Open ground is much easier for rover control. If both cameras where on it would help. A hammer was placed on the ground with the rover driving over it, not a problem for it at all. The impression is that stones half the size of the rover wheels or plants are not an obstacle. I would help to know the relative direction between the aim of the camera and the axial position of the rover, either by compass or an encoded mount which could be read by software.

Test the control software, laptops and communications operations with the rover.

The software runs smoothly on the laptop no issues there. However at times, perhaps due to wifi latency, the software does not respond in real-time anymore. In the desert it was not observed as a problem, but in a school or a surrounding with a lot of wifi traffic this could be a problem. A wifi sniffer and possibility a change of communication channels may be a solution. Also a wider angle on the camera field of view would be easier for rover control. Screen layout is important too, controls critical for driving the rover should be close to the camera view.

Field test the rover with a simulated science instrument load and evaluate its environmental impact on the desert surface.

Physical impact of the rover on desert terrain was studied. The goal was to find out how much load the rover can carry before disturbance of the ground is registered. The rover, weighing about 5 kg, was loaded first with 3 kg of weight and later with 6 kg without leaving signs on the ground. The loaded rover did also not leave signs on the terrain when going over obstacles. There is ample latitude in loading the rover with instrumentation without causing damage to protected environments. It's impact is less than that of a person walking the same terrain.

Evaluate practical communication range and power autonomy.

Through the tests it became obvious that communication latency could be an issue in controlling the rover, especially if it is compounded by interference from other wifi transmitters. There are some easy workarounds to mitigate this by switching channels or using higher gain antennas in a wifi crowded environment. Fortunately for science studies at desert location this may be less of an issue up to practical limits. The power autonomy is sufficient for meaningful rover sorties once the rover is in the hand of properly trained crews. At MDRS it would be advisable to prep one team member in rover operations ahead of time, this is something where good documentation, solid procedures and intuitive design come to bear. While LiIon may provide more power, it will not substantially change the autonomy of the rover as it stands today. Possible scenarios at MDRS may require the use of ATVs to bring the rover to more remote research locations. This rover evaluation was conducted in dry weather and terrain.

Test potential sciences packages

A Raman spectrometer and GigaPan camera assembly were tested in the field. The GigaPan processing is work intensive and although the results look promising more processing work needs to be done. It is not an instrument that will be easy to use by untrained people. The stitching software is far from perfect but is showing some promising results, processing times are long and it needs a lot of computing resources. Raman spectrometer testing was not conducted using the rover but using samples from the area. Results were satisfactory, issues regardin power and sample contact were discussed.

NorCal Rover Team, April 2008.
Photography (c) by Cornelia Knoepfel.









Saturday, December 15, 2007

Training the Next Generation of Space Explorers

Although continued space exploration certainly requires tax payers support - less than 1% of the federal budget is spent on space exploration, i.e. in 2007 this amounts to $1.09 per week per taxpayer - such a program would be impossible without the researchers and staff employed to run it. It takes dedication and consistency to recruit and train the people who make the space exploration program work. And it takes dedication to keep a steady interest among the students to forgo more lucrative technology opportunities and motivate them to take on challenges faced in a space program. While the NASA budget for such activities is often challenged and sometimes cut this rover project demonstrates a positive role businesses can play in keeping the expert pipeline flowing. Google is a company ran by visionaries who understand the importance of a space program. Not only by creating a space related challenge but also through supporting NASA's activities in encouraging students to take engineering and research careers and thus increasing their own opportunities for future hires from this group.

The NorCal rover project was conceived as part of NASA's Spaceward Bound program. Spaceward Bound is an educational program organized at NASA Ames in partnership with The Mars Society, and funded by the Exploration Systems Mission Directorate (ESMD) at NASA Headquarters. The focus of Spaceward Bound is to train the next generation of space explorers by having students and teachers participate in the exploration of scientifically interesting but remote and extreme environments on Earth as analogs for human exploration of the Moon and Mars. One program involves teachers in authentic fieldwork so that they can bring that experience back to their classrooms and assist in the development of curriculum related to human exploration of remote and extreme environments. The second program is to enable students at the upper undergraduate and graduate level (including teachers) to participate as crew members in two-week long immersive full-scale simulations of living and working on the Moon and Mars at the Mars Desert Research Station (MDRS), established and operated by The Mars Society.
The software and rover experiments this group is working on is targeted at both of these activities, one of the rovers will be entirely dedicated to classroom use as a vehicle to explore different engineering and software engineering topics and as a platform for science experiments and simulations.

Since I am writing about the people who care about the eduction of space explorers I should mention something I learned recently while visiting friends at the Naval Postgraduate School in Monterrey, California about an hour and a half drive from Silicon Valley. A total of 33 graduates of the Naval Postgraduate School have become astronauts; more than any other graduate school in the country. So, if you are looking into an astronaut career, the NPS may not be a bad bet. I've been lead through their labs and facilities and the people there are doing serious space science and engineering. And they have among themselves two astronauts who work with them, both veterans of space flight, Daniel Bursch and Jim Newman. Sadly, two NPS graduates perished in the two Space Shuttle accidents; Michael J. Smith aboard the Challenger, STS-51L, on January 28, 1986 and William C. McCool on Columbia, STS-107, on February 1, 2003.

The Space Systems Academic Group at the Naval Postgraduate School established an annual award to an outstanding graduate of the Space Systems curriculum in honor of the two astronauts. The group is looking to raise additional funds for a modest endowment to make the award permanent. If you have an interest in making a tax deductible donation please follow this link.