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Sunday, July 15, 2012

Mars Curiosity Lander in a Nutshell

The Mars Science Laboratory, a car-sized rover due to land on the Red Planet ealy next month, is the latest endeavour by humanity to establish whether or not we are alone in the Solar System. The planet Mars, in particular, has long captured the imagination in this regard. 

A Brief History of Martian Exploration 

Observations of apparent similarities between Mars and Earth led 17th and 18th Century astronomers to assume that Mars may be inhabited by some kind of life forms. It was already known that the length of day on Mars was almost identical to that on Earth and that the planets axial tilts were also similar. Some speculated that darker features observed on Mars were areas of water, while lighter areas were land. Interest was piqued in the 19th Century following observation of seemingly artificial linear features on Mars. (Incidentally, the usage of the term canals for these features was mistranslated from a description by Italian astronomer Giovanni Schiaparelli, who used the word canali). Irish astronomer Charles E. Burton made some of the earliest drawings of straight-line features on Mars. Despite these lines later being shown to be an optical illusion, popular imagination was understandably stimulated. H. G. Wells, was inspired to write The War of the Worlds in 1897, depicting an alien invasion from Mars. American astronomer Percival Lowell published a book, entitled Mars and its Canals, in 1906, asserting that the canals were the remnants of an extinct civilization. 

In the late 20th Century, a series of orbiting and landing probes were sent by the United States and the Soviet Union. Prominent among these were the Viking missions of the 1970s and Sojourner robotic rover, part of the Mars Global Surveyor mission in 1997. Activity of this kind has accelerated in the 21st Century. The twin Spirit and Opportunity rovers have been particularly successful, broadly achieving the primary scientific goal of searching for and characterizing rocks and soils that hold clues to past water activity on Mars. These rovers have captured many stunning images including this one, a sunset from the Martian surface, captured by the Spirit Rover:

This primary goal of water detection is based on the Mars ocean hypothesis. It states that nearly one third of the surface was covered by water early in the planet's geological lifetime, some 3.8 billion years ago. It is thought that, at one point, Mars may have looked like this:

Mars Science Laboratory

The Mars ocean hypothesis has played a key role in defining the goals of the Mars Science Laboratroy, due to land on the Martian surface on August 5th, 2012. The 2 year mission has 4 goals:

  1. Determine whether Mars could ever have supported life (by searching for biosignatures, the chemical building blocks of life). 
  2. Study the climate of Mars (especially the water and carbon dioxide cycles). 
  3. Study the geology of Mars (both of the present and from over the past 4 billion years). 
  4. Plan for a human mission to Mars (by ascertaining radiation levels on the surface). 
The landing itself will be an incredibly audacious affair, even by Martian standards (some 50% of missions end in failure). Seven Minutes of Terror describes the process:

The future

The potential of Mars in ascertaining the rarity or otherwise of life in this solar system is clear. Already, a number of future missions are being planned, such as the ExoMars mission, a collaboration between the European Space Agency and the Russian Federal Space Agency. It is thought that any life or remnants of life will exist deep beneath the surface where it is shielded from radiation and atmospheric exposure. The current lander will be capable capable of digging some 10cm into the Martian soil. Biosignatures, should they exist, are likely to be more easily detected at deeper levels. There are tantalising clues in the atmosphere- some 270 tonnes of methane are emitted into the atmosphere each (Martian) year- are microorganisms creating this? The exciting possibility of the discovery of extraterrestrial life, extinct or otherwise, cannot be ignored.      


  • The name Curiosity was decided with the aid of an essay competition, won by Clara Ma, an eleven year-old schoolchild.
  • The tyres on the rover are embossed with a tread pattern which will leave an impression on the Martian surface spelling JPL  (Jet Propulsion Laboratory) in Morse Code (·--- ·--· ·-··). This is used to help determine the distance traveled. 
  • There are two on-board radiation hardened computers, each including 256 KB of EEPROM, 256 MB of DRAM, and 2 GB of flash memory.
  • Approximately 50% of all lander and orbiter missions to Mars have ended in failure. This has become known as the Martian Curse.

Thursday, July 5, 2012

Innovation at CERN: Big Data and the Higgs Boson

The confirmation today of the existence of the Higgs Boson is notable not just in the field of Particle Physics but in that of Computer Science. The mechanics deployed in the LHC continue a legacy of  notable contributions to computing by CERNTim Berners-Lee, a scientist at CERN, invented the World Wide Web in 1989. The Web was originally conceived and developed to meet the requirement for automatic information sharing between scientists working in different universities and institutes around the world. 

Data requirements of the late 1980s can appear insignificant when compared with those associated with the LHC in 2012. When operating, around 1 petabyte (1 million gigabytes) of raw data is processed EVERY SECOND and approximately 1 percent of that is stored. Managing this kind of information system has led to new Big Data infrastructural initiatives, such as the Helix Nebula.

CERN research in the past has had profound and enduring consequences for Information Technology. Who can say what exciting developments will emerge in that field as a result of work done to enable today's announcement?

Wednesday, June 27, 2012

Historic Handshakes

Martin McGuinness has shaken hands with Queen Elizabeth in Belfast today. Here are some other notable events of this kind:

U.S. President Bill Clinton is present at the signing of the 1993 peace accord between Israel and the Palestinians on the White House Lawn with Israeli Prime Minister Yitzhak Rabin, left, and PLO chairman Yasser Arafat, right. (Sept, 13, 1993)

South African State President F W de Klerk shakes hands with African National Congress President Nelson Mandela, right, at the end of the talks between the Government and anti-apartheid groups to end white-minority rule in Johannesburg, South Africa (Dec. 21, 1991)

Chairman Mao Tse-tung, left, and U.S. President Richard Nixon shaking hands as they meet in China. Nixon's visit, Feb. 21-28, marked the first U.S. presidential visit to the People's Republic of China.

U.S. President Ronald Reagan, left, and Soviet leader Mikhail Gorbachev shake hands at the steps of the villa Fleur d'Eau at Versoix, Switzerland (Nov. 19, 1985 )

Monday, June 25, 2012

Google TV box set for July 16th launch in the UK.

The £200 voice-controlled Sony set-top box will offer access to video channels and web searches - and has a motion-controlled remote control. In addition, Android phone users will be able to use their handsets as a remote for the new box.

Thursday, June 14, 2012

A Televised Revolution: The Future of TV

A Televised Revolution

The familiar television set, in essence unchanged since widespread broadcasting commenced some 70 years ago, is primed for major paradigm shift. The adoption of new interfaces, new broad (and narrow) casting channels, together with the convergence of communications, social media and video on demand and storage technologies mean that the television set is likely to serve as the central component of a cultural shift in the coming decade.

The televisual experience of the future is likely to embody a number of pertinent new characteristics. These are:

  1. Social Television. The ability to communicate and share the televisual experience in real time. This may involve integration with existing services such as twitter or facebook or may prompt the emergence of entirely new platforms, more optimised for television.
  2. Innovative User Interfaces. There has been only one outstanding development in this domain in the history of television, namely that of the remote control, the inventor of which died recently. With current hardware capabilities (together with an assumed consumer demand and cultural readiness), it is likely that there will be much more innovation in this space in the coming years. Motion control is likely to play a role in this shift (Leap Motion Control  shows particular promise). Voice control, too, may find wider adoption in the private and relatively low ambient noise environment of the home.
  3. Distributed User Interface. Harnessing the collective power of various ancillary electronic devices, such as mobile phones, tablet computers with the television has potential to enhance the user experience. Synchronisation of the devices in an intuitive, unobtrusive manner is a consideration.   
  4. Rapid rate of adoption. Recent technologies of this type, DVD and Tablet computing, in particular, have all reached high levels of proliferation with some rapidity. The large potential market, together with very low cost hardware solutions (e.g. Raspberry PI) means that technological progress applied to the television set is likely to be similarly rapid.

Quite how these characteristics will affect the requirements of users to  communicate, work, create and be entertained is unclear. What is more certain is the large potential for solution developers in addressing and shaping those requirements.

How will users want to engage with the television set in the future? What kind of services do you think are likely to emerge?

Wednesday, June 13, 2012

Leap Motion Control- incredible (and cheap) motion control!

Nintendo Wii, Microsoft Kinect now Leap Motion. This platform is great:

Cheap: $70
Sensitive: tracks movements of about 0.01 mm
Open: API is free

Check out the video here:

To order the device visit the leap website.