How to Increase your Internet Speed with Mandala Optical Computer Application

Different applications require different bandwidths. An instant messaging conversation might take less than 1,000 bits per second (bps); a voice over IP (VoIP) conversation requires 56 kilobits per second (Kbps) to sound smooth and clear. Standard definition video (480p) works at 1 megabit per second (Mbps), but HD video (720p) wants around 4 Mpbs, and HDX (1080p) more than 7 Mbps.

1080p: Picture Snap

140p: Picture Snap

Wifi Range

A router's Wi-Fi range depends on many factors - how many radios and antennas it has, what frequencies it broadcasts on, interference - the list goes on. All you really need to know, though, is Wireless AC routers provide the best connectivity at the farthest range, followed by Wireless N routers.

Two Antenna Wifi Router

For diversity receive, the reason there are two antennas on routers is not for transmit purposes, but for receive. Radio waves in the 2.4 gHz band are very short (about 1/2 inch long; they are actually considered microwaves) and by spacing 2 or more antennas a few of wavelengths apart you increase the chance that at least one antenna is going to receive a decent signal from your notebook. There is an antenna switch and a "voter" within the router that automatically selects the antenna producing the strongest signal.

Local Internet Service Provider

Maximum users: 5

Internet Speed:

1. 384 Kbps for 500 MB

2. 512 Kbps for 350 MB - 700 MB

Photoconductive Test on Two Laptop in 10 meter Distance

Laptop A has internet connection while Laptop B has no internet access status. Up to this date, Laptop B can not connect in the 10 meter distance outside the building.

Photoconductive Computer Application

The photoelectric effect and ionizing radiation of "Low Dose Gamma Ray Exposure in Mandala" played a role as the second semiconductor in non-refractive index (or non-crystal semiconductor) in the Optical Computer theory. It amplified the signal in the weakest spot and produced a higher picture quality in video-streaming.

Other benefits from the photoconductive application is overcoming the bad weather, there were occasions last year and early this year that the telephone pulse disappeared because of the bad weather and strong winds. The applications are conducted in 3 receivers, 1. wifi router, 2. computer desktop display and 3. flat bottom surface of the laptop. There are corrections in many applications tested, one theory of strong and weak laser combination is an inspiration. However, the inventor/writer will not disclose the detailed application, which is now being tested on HD quality video streaming.

From 312 Kbps - 512 Kbps, the internet speed in the 10-meter range is measured at 676 Kbps, the 20 meter distance can provide an uninterrupted video streaming at 420p picture quality. All data in the two table are the internet speed of the inventor/writer.

This research is intended to prove the higher bandwidth (guaranteed internet speed). One property of invisible light is scattering, the photoconductive of the low dose gamma ray in mandala application enables the light energy to scatter and create multiple signal to the electronic transistor of the conventional laptop.

Scattering is a general physical process where some forms of radiation such as light, sound or moving particles are forced to deviate from a straight trajectory by one or more paths due to localized non-uniformities in the medium through which they pass. With multiple scattering, the randomness of the interactions tends to be averaged out by the large number of scattering events, so that the final path of the radiation appears to be a deterministic distribution of intensity. Optical elements designed to produce multiple scattering are thus known as diffusers. Multiple scattering is highly analogous to diffusion, and the terms multiple scattering and diffusion are interchangeable in many contexts. The description of scattering and the distinction between single and multiple scattering are often highly involved with wave-particle duality.

An optical transistor is a device that switches or amplifies optical signals. Light incident on an optical transistor’s input changes the intensity of light emitted from the transistor’s output. Output power is supplied by an additional optical source. Since the input signal intensity may be weaker than that of the source, an optical transistor amplifies the optical signal. The device is the optical analog of the electronic transistor that forms the basis of modern electronic devices. Optical transistors provide a means to control light using only light and has applications in optical computing and fiber-optic communication networks. Such technology has the potential to exceed the speed of electronics, while consuming less power.

Optical Computer (Photonic Computer)

An optical computer (also called a photonic computer) is a device that uses the photons in visible light or infrared (IR) beams, rather than electric current, to perform digital computations. An electric current flows at only about 10 percent of the speed of light. This limits the rate at which data can be exchange over long distances, and is one of the factors that led to the evolution of optical fiber. By applying some of the advantages of visible, and/or IR networks at the device and component scale, a computer might someday be developed that can perform operations 10 or more times faster than the conventional electronic computer.The ultimate goal is photonic network. An optical (photonic) network is a communications network in which information is transmitted as optical or infrared radiation transmission (IR) signals.

For decades, photons have promised to allow a higher bandwidth than the electrons used in conventional computers.

Optical Transistor

The fundamental building block of modern electronic computers is the transistor. To replace electronic components with optical ones, an equivalent optical transistor is required. This is achieved using materials with a non-linear refractive index. In particular, materials exist where the intensity of incoming light affects the the intensity of the light transmitted through the material in a similar manner to the current response of a bipolar transistor. Such an "optical transistor" can be used to create optical logic gates, which in turn are assembled into the higher level components of the computer's CPU. These will be non linear crystals used to manipulate light beams into controlling others.

Bandwidth

In computer networks, bandwidth is used as a synonym for data transfer rate, the amount of data that can be carried from one point to another in a given time period (usually a second). Network bandwidth is usually expressed in bits per second (bps); modern networks typically have speeds measured in the millions of bits per second (megabits per second, or Mbps) or billions of bits per second (gigabits per second, or Gbps).

The Benefits of Higher Bandwidth

• Shorter Download Time

Having a higher bandwidth means you will be able to achieve a higher data transfer rate which in turn leads to shorter download times. This is especially significant when downloading large files.

• Smoother Experience with Multiple Concurrent Online Applications

Many users don't just run a single online application at a time. A user could be checking his email, surfing a website, downloading a music file, watching a clip from Youtube and playing an online game at the same tine. To be able to support and have a smooth experience of multiple concurrent sessions requires a plan with higher bandwidth.

• Supporting Multiple Users and Online Sessions Concurrently

With broadband routers being a commonplace and affordable, a household can easily set up a LAN at home to share the broadband line among multiple PCs, Mum could be watching a Youtube clip, Dad downloading a large Power Point file from the office, Daughter conducting a video chat with her friends and Son is playing an online game with his guild. But having multiple concurrent users, each of whom could be running multiple online sessions can really tax your bandwidth. In this example, the family is probably sucking up about 1.3 Mbps of bandwidth. Having a higher bandwidth plan could easily really help right about now.

Reference:

1. http://searchenterprisewan.techtarget.com/definition/bandwidth

2. http://blog.dlink.com/wireless-router-buying-guide/

3. http://www.telkom.co.id/speedyflash-kemudahan-untuk-berinternet-kapanpun.html

4. http://whatis.techtarget.com/definition/optical-computer-photonic-computer

5.. https://en.wikipedia.org/wiki/Optical_computing

6. https://www.ida.gov.sg/Learning/Tips-and-Guides-for-Consumers/Mobile-and-Broadband-Advice/Benefits-of-Higher-Bandwidth