User:Gisbourne/mosquito laser

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The mosquito laser is a device invented by astrophysicist Lowell Wood to kill large numbers of mosquitoes to reduce the chance of people being infected with malaria. Mosquitoes can be carriers of the blood parasite of the genus plasmodium, which causes malaria. According to the World Health Organization, an estimated 300 million cases of malaria occur each year, causing over a million deaths per year. Although originally introduced in the early 1980s, the idea was not substantially researched until decades later. In 2007, the Bill & Melinda Gates Foundation requested Intellectual Ventures LLC. to find a way to fight and eventually end malaria. Intellectual Ventures resurrected the idea of using lasers to take out mosquitoes and now has a working prototype. The idea has been criticized because most areas here malaria runs rampant do not have reliable sources of power.

Original Idea
At a brainstorming session in 2007, to think of solutions for malaria, Dr. Wood, one of the architects of the Strategic Defense Initiative(SDI), also known as “Star Wars,” suggested designing a system to kill mosquitoes with lasers. Soon after, the idea was followed up by many scientists at Intellectual Ventures, and mosquitoes were being shot down within a year. The original Idea incorporates laser technology that stems from the SDI, scaled down to insects. Although the malaria causing parasite is gone from most developed nations, it is getting worse in undeveloped countries, and it is also becoming more resistant to drugs. Rather than continue with drugs or other pesticides, the mosquito laser takes a more direct approach by instantly killing mosquitoes or burning off their wings and rendering them harmless. One of the design goals was to minimize collateral damage to other species and the environment.

Development
The laser, referred to by some as a WMD (Weapon of Mosquito Destruction), works effectively at a range of 100 feet. Although the team at Intellectual Ventures is confident in the effectiveness of the laser, they do not expect it to eliminate malaria altogether. They believe several technologies must be combined for maximum eradication and minimal cost.

Scientists Involved
The team includes several scientists that previously worked at Lawrence Livermore National Laboratory. Dr. Lowell Wood worked with Edward Teller, the father of the Hydrogen bomb, and architect of the SDI anti-missile Laser program. Currently there are 22 scientists involved with the project, including lead scientist Jordin Kare, PhD. These scientists’ knowledge spans several fields; the scientists include engineers, an insect physiologist, an optical specialist, math geeks, a computational modeling scientist, and an epidemiologist.

Ways to Implement
A couple of theories of implementing a mosquito-killing laser were explored. Efficiency and cost were both taken into consideration. Devised methods of implementation included a hand-held model, flying drones, and the current prototype, the Photonic Fence. As of early 2008, Intellectual Venture's prototype consisted of a hand-held laser, capable of shooting down mosquitoes in limited amounts. The Intellectual Ventures' scientists, at one point in time, suggested attaching a mosquito laser system to a small flying drone so that it could patrol the skies. The current prototype idea being pursued is a perimeter based implementation known as the Photonic Fence.

Current Prototype: Photonic Fence
The device works by using infra-red Light Emitting Diode (LED) lamps on a fence post to create a field of light. This field of light reflects off of retroreflective material on another fence post, much like that used on roads and highway signs, and bounces back to its source. This field of light is monitored by charge-coupled devices (C.C.D’s) similar to the ones used in consumer digital cameras. These cameras are situated on both fence posts and detect shadows in the light between the posts. Once an insect is detected, a non-lethal laser is fired at it. This non-lethal laser is used to determine the size of the insect, and the frequency at which its wings are beating. This information can be used to determine the type of insect, and even its gender because wing beat patterns are unique to each species and gender. This is important in preventing malaria because only female mosquitoes bite humans. Also, only mosquitoes of the genus Anopheles carry the malaria causing parasite of the genus plasmodium. All of these determining calculations are done using a custom image processing board using software written specifically for this application. Once the software confirms that the insect is of the targeted species and gender, a safety check makes sure that nothing is in the way of the laser and the mosquito. Once this safety check is completed, the lethal laser is given permission to shoot. The lethal laser could be one of several low-power consumer lasers, but blue lasers, similar to the ones found in Blu-ray players, are thought to have great potential. Blue lasers are used over other color lasers, such as green and red because they are much stronger, and also minimize the amount of power used. The lethal laser is fired at the mosquito and is able to kill it mid-flight. The exact reason for the mosquito’s death is unknown, but experts hypothesize it could be due to damage caused to the mosquito’s DNA. It is also likely that the mosquito simply overheats and dies for this reason. In a video published by Intellectual Ventures, the mosquitoes’ wings appear to melt and they drop to the floor.

Effectiveness
The Photonic Fence is thought to be best deployed surrounding buildings, such as hospitals and schools, or even round whole villages, in an effort to reduce the contact with malaria. According to Nathan Myhrvold, co-founder of Intellectual Ventures, the Photonic Fence can kill up to 50 to 100 mosquitoes a second, at a maximum range of 100 ft. Myhrvold claims that the laser would be able to shoot down billions of mosquitoes a night.

Cost
The Photonic Fence can be manufactured from parts used in current generation consumer technology and is projected to be relatively low cost. Myhrvold believes it can be made for around $50 per unit; however, Intellectual Ventures does not intend to manufacture the units, but rather to come up with a finalized design. The prototype of the fence was built with parts bought on ebay. All three stages of the photonic fence can be made from this consumer technology. When the device is looking for mosquitoes that pass its field of vision, it uses basic infra-red LEDs, and light sensors from modern digital cameras. To target and kill the mosquitoes it uses similar laser technology as what is in optical devices such as DVD, or Blu-Ray disc drives.

Environmental/Ecological
The collateral damage to the non-malaria carrying insect population from the Photonic Fence is thought to be low. Since the system can rapidly determine its target by wing beat frequency, it can be set to target only the female mosquitoes, who are the carriers of malaria in certain species of mosquitoes. Furthermore, this distinction allows it to avoid species of insects which don’t spread disease, such as bees. The risk for collateral damage is minimized because the prototype checks the target and the kill-laser is barely strong enough to destroy mosquito tissue. The laser, as a replacement for pesticides, does not cause wide spread environmental damage that pesticides do.

Expert criticism
Although there has been positive public reaction, there have been experts who have expressed doubts as to the effectiveness of the Photonic Fence in the field. According to Dr. Bart Knols, a mosquito and malaria expert, the system would not work because of high cost and troubles with power in Africa, and that the Photonic Fence has only been used in a lab setting.