Future Command Software Institute

If you want to join in on a project, we are using the BSD license. We wish to produce proofs of work conceived during education and make dreams for the less fortunate become realities.

Goal: Fosters a number of open source projects to make software enabling technologies to help the disabled or assist in other healthcare needs. Physical therapy application assisting physical therapists in small towns and developing countries determine give out exercises that would benefit their client. Would you please advise me on this data I am gathering to reduce traffic fatalities? I have reached out to a couple of open source projects requesting feedback. Please review proposal on my profile: Linguistic tools may help prevent traffic crashes. I believe that should we were to build assistive technologies to help drivers drive safer. This research combines my study of natural language comprehension in my first IGI publication with brain scans using Tensorflow to determine elements of driving where accidents occur. The goal of this work is to determine how the in the car computer can partner with the driver to help think through these difficult situations. Some people, particurally older drivers say “I’ve been driving on a tractor my dad’s farm since age 8. I’ve drove for about 65 years. Why should I surrender control to a birds’ nest of while that a few years ago could’t show in color.” By subtle introduction of computer aided technologies we can show them gradually they are neither iRobot or completely useless. An example of computer aided driving is the antilock brakes. we’re not talking about a fully automated vehicle here. We are talking about technologies either exist now or we can develop in the next 10 years. And our goal is to increase safety here, when something fails we need to be able to revert to the way things are before the technology existed. With backup assistance cameras you’re still welcome to look out the video monitor but you also have the option of looking out the back window. Nothing is stopping you from pumping the brakes (Cadence braking) an average of 15 time per second or 900 times per minute with a sensativity meter considered. ABS have been around and improved upon since the late the 1930’s airplanes and have been implemented in cars at least since the 1941 Automobiltechnisches Handbuch was published. Yes, given this time scale technologies evolve over time, but to deny them to the generations that raised us into the bright, capable people we are today would be a disservice to their safety and well being as well as ours. I agree that technologies should be battle ready to some extent and not be sloppy. That is why we have a lot of work in front of us. My question is what technologies do we have now that can improve the perspective of the driver. In the paper I suggest that voice over technologies can help aid the driver’s perpective so they can do their job safer. Voice technology is improving and so are image recognition technologies. The key is to put the two together in such a manner it is helpful to the driver. My next research is on improving contrast in machine vision as it relates to automated medical imaging when using sonography imaging. I have some ideas looking at sounds as it relates to tissue density. Since all things that are living are animate producing energy, all of these energies exist as radiating sound. As a physics student quoted mc hammer and said to a professor "you can't touch this". We can experience the force fields surrounding each object. Some early scientists said that bats made sounds that bounced off objects. And this is particularly interesting because we now know that with noise cancelling headphones energy can be added or subtracted from the wave's amplitude making it in a spectrum that a bat can hear. An interesting proof of concept is a motion detector which can sense heat such as a passive infrared detector. Rather than an array of microphones my approach leverages the formation of patterns to learn what type of sounds to expect in progression through software audio filters. As math professors used to tell us, nothing is continuous but discrete in terms of energy pulses. Our brain just connects through sampling and tries to make up for its lack of perception capacity to think of something as continuous. Even light is susceptible to waves and quantum mechanics. We now know there is confusion because thus not only includes the third detention but the fourth detention as well. The best they can do is a group of circles circling around each other for modeling purposes. It is particularly interesting shining a laser at a boom box speaker. Scientists argue that light waves are transverse while sound waves are longitudinal. Light create heat when coming into contact with objects. Would sound waves also sound waves be capable of generating heat if the oscillations were closer together meaning it carried more energy. Were slowed down it would have a similar effect as seen with thunder and lightening where thunder takes more time than light to be perceived. In order for a source to have more than one wave it seems as though each type of wave would need its own source emitter. However, it can be deduced that this is not always the case. It is more reasonable to say that the intensity of light decreases as a square proportion into square distance. This means as wave bounces off objects it would decrease the focused energy so it turns from a light wave to a sound wave when light reflects and refracts off objects. I think that it is fair to say that light is a sound wave except that light has a greater frequency so that it affects the centripetal motion so that the sound wave appears to be under greater influence of gravitational force of surrounding objects. Consider a solar storms which can have a flame burst which can be perceived by audio equipment. Radio telescopes can detect planets because they operate in a different spectrum and serve as a inspiration for this project. Watch alerts (a physical therapy exercise suggestion using computer graphics and artificial intelligence) Goal: Watch alerts is an artifical intelligence expert system intended to aid physical therapists find points of balance for weakness and analyzes how a person carries themselves as compared to other people. It uses such features as computer vision, accelerometer, and gyroscope. It differs from competing programs because everything that is required is open source or included on the mobile platform. The following are worth checking out wilcoxon statistical modeling remote sensing microphone (spectroscopy) hyrax (mobile hadoop) looking for a self-contained platform that utalizes android's sdk I've been working with a research project involving neurogaming. It improving the minds of people who start to show memory loss or have mental illnesses such as autism through mirror neurons and simulation. This project differs from competitors because does more immersive experiences such as Playstation or Gamecube. In order for a person to truly exercise they need to be caught up in the passion of the event and forget that they are exercising. It's like the book "See Spot Run" vs "Jurassic Park". You can base a movie on Jurassic Park but I think I'd save my money on the spot video. Athletes can get caught up in a sport such as tennis and forget they are working out. And it will be freely available online with support from advertising dollars. I think that the people who could benefit from this the most, the people with early signs of memory loss and mentally illness, are the ones who cost is a barrier to using other platforms. We also sell the anonymous research to aid in the development of other benefits and services. This is similar to Fred Rodger's congressional plea that children can be confused by "bombardment" and the need to do what is not natural such as bopping each other over the head. What is more natural is discussing what happens when they get a hair cut."