We live in a cosmic sea of radiation...
What can a geiger counter teach us?
What hidden secrets can a geiger counter reveal?
How can a geiger counter protect us?
Russian scientists were there with instrumentation they developed post-Chernobyl
The Radiex Conference in Tokyo, in September, was successful at bringing people together around technologies for cleaning up and monitoring radioactive contamination in Japan. The conference was well attended.
In fashion conscious Tokyo it was interesting to see these suits for clean up workers to protect themselves. But radiation protection is an important issue now.
I attended the show, made a couple of presentations, and worked with Safecast to promote the value of the radiation maps they have been creating since the Fukushima Daiichi event. Safecast has posted more about the conference on their website. My company, IMI-International Mecom continues to support the good work they are doing.
Safecast Volunteer Kalin Kozhuharov talks with attendees at Radiex 2012
Some of Safecast Team at Radiex 2012 Conference.
The first conference of its type, Radiex 2012 will certainly not be the last. It will take many years to deal with the problems created by the earthquake, tsunami, meldowns.
In some cases forests are being cut down. This is one approach to remediation. The Cesium 134 and Cesium 137 are taken up from the soil into the trees. Then the trees are burned and the waste compacted for storage as radioactive waste.
Radioactive materials need to be properly contained and transported. These concrete containers serve that function. There were also a lot of heavy duty plastic bags on display.This device can be pulled behind a tractor for measuring contamination on farmland
In addition to devices for measuring soil contamination, there are also a lot of devices for measuring radioactivity in food. The new Japanese standard requires less than 100 Bq/kg of contamination in food.
This food testing equipment was developed by a Russian company. The Russians bring years of experience to the table, having dealt with Chernobyl and other nuclear hotspots for many years.
In addition to community work crews, cleantech industry executives, government officials, we also saw a very concerned segment of the population: Mothers with babies concerned about their future.
This looks like a Jetson Era vaccum cleaner, but it's really a beta contamination detector designed for scanning homes and schools for contamination
Helicopters with special sensors are used to monitor remote areas.
This machine is designed to decontaminate surfaces.
Joi Ito, right, with Sean Bonner, Tokyo April 2011, Photo by Paulo Mendes
Safecast continues to make news with its rapid collection and dissemination of radiation data since the Fukushima Daiichi disaster. Safecast Co-Founder and Advisor Joi Ito continues to make news in the realm of technology, innovation, open data, and new ways of thinking.
Those who have been lucky to work with Joi will attest to the contagious nature of his enthusiasm for technology solutions to meet human needs. MIT Technology Review covers Joi. Safecast, and Media Lab under Joiʻs direction in this interesting article.
In addition to his position as Director of MIT Media Lab, Joi is also Chairman of Creative Commons, and sits on the Board of New York Times, MacArthur Foundation and Knight Foundation. He is also a board member of Witness, an organization focused on human rights.
Joi was also named by Businessweek as one of the 25 Most Influential People on the Web in 2008. In 2011, Ito was chosen by Nikkei Business as one of the 100 most influential people for the future of Japan and by Foreign Poicy Magazine as one of the “Top 100 Global Thinkers”. In 2011, he received the Lifetime Achievement Award from the Oxford Internet Institute in recognition of his role as one of the world’s leading advocates of Internet freedom.
Thank you, Joi, for the great work you are doing, and for your continued support of Safecast, radiation detection and mapping, and open transparent data!
In early meeting of what has become Safecast, Joi (r) confers with Sean Bonner (Safecast Global Operations Director), Pieter Franken (Safecast Japan Director), and Dan Sythe (r to l) on how to rapidly deploy radiation monitoring devices and publish the data. Tokyo, April, 2011. Photo by Paulo Mendes
Bunnie Huang is welcomed to Tokyo, April 2011. Photo by Paulo Mendes
For background, I first met Sean and Bunnie in Tokyo in April 2011. The building we were conferencing in was swaying from aftershocks of the Tohoku earthquake. The conversation was largely about the lack of data on radiation levels. The situation to the North was unstable and disconcerting.
The conference was attended by movers and shakers in the global technology arena, and the traditional media world. The vital data transfer rate Twitter vs. Traditional Media during the Haiti earthquake, presented by Adhur Chowdhury, Chief Twitter Scientist, was truly impressive. A number of groups and individuals in Japan and beyond were harnessing the power of the world wide web to communicate radiation data, but the numbers were confusing, some of the instrumentation was unreliable, and general evolution was needed. The Safecast Geiger Counter Reference Design concept was created under these conditions. The people, circumstances, technology, the scope of the larger project it is part of, are worthy of a book. I will attempt to condense parts of the story into a series of blog posts.
Sean Bonner, Director of Safecast Global Operations, with Adbur Chowdhury, Chief Scientist at Twitter, Tokyo Rooftop, April 2011. Photo by Paulo Mendes
Geiger Counters have been part of my life since an early age, back in the 1950ʻs, when they were built with vacuum tubes – and were the size of a large lunch box. Analog meters were standard issue for decades, sometimes supplemented with scalers using neon light bulbs. Many of the early instruments required special, expensive, batteries. Iʻve witnessed, and been a part of, the evolution of the Geiger Counter, Iʻve designed them, repaired them, evaluated them, and Iʻve started and worked with companies that make them from Tennessee to California, New York, Nanjin, Minsk, and places in between and beyond.
The Safecast Reference Design is something new and different in many regards. One, it is an open source project with the potential for world wide collaboration and evolution of functions and features. It also has enough power under the hood to handle any conceivable workload in terms of calculations and communications of data. It is small and beautiful and easy to use. And it is designed to share information with the world. Iʻll write more about some of the other salient features of this instrument later.
The Safecast Geiger Counter Reference Design is basically a labor of love by Bunnie, a very talented engineer. Itʻs one of his contributions to help the people of Japan during a very challenging chapter in Japanʻs history. And the instrument will have impact and influence far beyond Japanʻs borders. The Safecast X Kickstarter version of this instrument is a very limited edition of Bunnieʻs Safecast Reference Design. The Limited Edition will be in clear plastics with laser-etched serial numbers starting at 001.
Andrew "Bunnie" Huang PhD. Photo Source: WikipediaBunnie Huang, Sean Bonner, Joi Ito, Dan Sythe, Pieter Franken (l to r) discuss radiation detection over dinner, Tokyo, April 2011. Pieter is Director of Safecast Japan. Photo by Paulo Mendes
Bunnie was introduced to me during the April 2011 NCC conference, by Joi Ito, now Director at MIT Media Lab. Again, this was during the period when 4 unstable reactors were still spewing radioactive materials, and Tokyo had been dusted. There was a world wide shortage of Geiger Counters and other types of radiation detectors. Not only was demand high, due to the emergency, but there were shortages of key components affecting the industry. Manufacturers in Japan affected by the earthquake, tsunami and meltdown, supply many components critical to the worldwide electronic industry.
High quality Geiger tubes, the heart of all high quality Geiger Counters, are manufactured under rigorous conditions in a multistage process that cannot be speeded up without degrading the quality of the detector. So there were only a very limited number of instruments available.
I handed over every instrument I could put my hands on to Joi and his friends, because I knew they would publish the data they gathered rapidly.
Joi Ito with "Pancake" Geiger Mueller Tube, Tokyo, April 2011. Photo by Paulo Mendes
I brought some Geiger Counter components with me to Tokyo, including some “Pancake” tubes, for the people at Tokyo Hackerspace, who were working long hours to develop instruments and get them into the field. The Geiger tube is the heart of a Geiger Counter. While the technology behind them is old, they are still often the best detector for mixed alpha, beta, gamma, x-radiation sources. The large mica window on a Pancake detector allows the detection of all of these types of radiation. A lot of measurements in Fukushima were being made with energy compensated detectors. These tubes have a thick side wall and cannot measure anything except energetic gamma rays. There was concern about the people who were waving these over their food and thinking it was safe to eat. The main isotopes remaining on the ground in Fukushima were Cesium 137, Cesium 134, Strontium 90, all primarily beta emitters. And there is some concern about Plutonium, an alpha emitter. The pancake tubes were in incredibly high demand. They were worth their weight in gold at this critical time in history.
Bunnie decided he wanted to make a major commitment to this fledgling data logging/sharing project, which became Safecast, by designing the reference Geiger Counter, with one of these precious “Two Inch Pancake Tubes” at the heart of it. If you want to dive deeper into the heart and soul of Bunnie and his creation, read his blogpost: Safecast Geiger Counter Reference Design. Bunnieʻs project has also been widely Tweeted, and written about in Engadget, BoingBoing, Gigaom, Security Management, Live Science, The Verge.
Bunnie is an incredibly talented young man. Joi Ito told me he considers him to be the worldʻs best industrial designer. Itʻs been a real honor to meet and collaborate with Bunnie to bring this instrument into the world. My next post will have some more images of Bunnieʻs creation, a little more history, an update on the limited edition release, and information on the upcoming commercial version of the instrument.
Bunnieʻs reference Geiger Counter Comes alive in his Singapore LabBunnie Huang, right, talks radiation detection with Akiba of Tokyo Hackerspace, center, and Dan Sythe, left, Tokyo April 2011. Photo by Paulo Mendes
