原曲のワンフレーズを全編に使ってみました。

aii va un video de como anda el narrow band jaja jalando

Tutorial explicando el uso de las estaciones fundamentales del submarino Seawolf del Dangerous Waters. WWW.GRUPODECOMBATE.COM

GripShift, a downloadable Playstation 3 game at 10$. It's me beating world record on Narrow Band level, fastest GS pick-up and to goal (at 0:12.656) Look up www.gripshiftgame.com if you want to know more about this game. To purchase this game, just hook up PS3 to online, go to Playstation Store, and browse "Downloadable Games" for this game.

Found an old tape of some friends broadcasting Gigolo Aunt - Syd Barrett song.Broadcast on narrow band FM - quality and tape is poor but may add to the psychedelia? It was fun.

Narrow Band Imaging Endoscopy Audio Video Presentation by Niknok at AUFMC

guiness

A gd star run on the level narrow band! Everyone go on www.instantaction.com and play some MBO, the new maps are insanely fun!

This is an action to against vandalism of the graffiti by the graffiti for the graffiti. In other words, the remix of graffiti is enable to fuck up the useless and bad-designed graffiti with no-ideologies. Even though my pattern of ornaments look like traditional, it consist from a thousand of graffiti taken from the street. This is an irony to show my attitude that 'I love graffiti but I hate senseless graffiti'.

World record run on the level narrow band, i now have a better time of 8.007, im positive that sub 8 is possible, enjoy.

Heavey RF provided MDL with a narrowband wireless solution to cover a large outdoor area Heavey RF installed just one narrowband transmitter which covers the entire site reliably and offers sub-second response times Heavey RF supply, install and maintain fit for purpose RF solutions to all sectors of Irish Industry

Electronically reproduced 32 line narrow band baird type video to show a good approximation of the image quality of a 1934 mirror drum scanner.

video: 128 Kbps; 176x144; 14.939 fps; H.263 audio: 12.8 Kbps; 8 000 Hz; 2 channels; AMR (Narrow band) 3gp

video: 128 Kb/s; 176x144; 14.630 fps; H.263 audio: 12,8 Kb/s; 15,8 KHz; 2 channels; AMR (Narrow band) 3gp

video: 62,9 Kb/s; 176x144; 14.288 fps; H.263 audio: 12,8 Kb/s; 15,8 KHz; 2 channels; AMR (Narrow band) 3gp

video: 128 Kb/s; 176x144; 13.948 fps; H.263 audio: 12,8 Kb/s; 15,8 KHz; 2 channels; AMR (Narrow band) 3gp

http://ffmpeg.mplayerhq.hu/ the appropriate flags to ./configure. 1.1 AMR AMR comes in two different flavors, wideband and narrowband. FFmpeg can make use of the AMR wideband (floating-point mode) and the AMR narrowband (floating-point mode) reference decoders and encoders. Go to http://www.penguin.cz/~utx/amr and follow the instructions for installing the libraries. Then pass --enable-libamr-nb and/or --enable-libamr-wb to configure to enable the libraries. Note that libamr is copyrighted without any sort of license grant. This means that you can use it if you legally obtained it but you are not allowed to redistribute it in any way. Any FFmpeg binaries with libamr support you create are non-free and unredistributable! Chapter 2: Supported File Formats and Codecs 2 2 Supported File Formats and Codecs You can use the -formats

video: 819 Kbps; 352x288; 14.560 fps; MPEG-4 Visual audio: 8 000 bps; 8 000 Hz; 2 channels; AMR (Narrow band) mp4

video: 164 Kbps; 176x144; 6.978 fps; H.263 audio: 12.8 Kbps; 8 000 Hz; 2 channels; AMR (Narrow band) 3gp

Google Tech Talks May 22, 2008 ABSTRACT The old idea of impulse radio dates back to Marconi's first wireless transmissions using sparks. Unlike most wireless today, impulse radio transmissions are extremely wideband signals. The recently FCC- released frequency band from 3.1GHz to 10.6GHz is the widest unlicensed frequency band ever released (7.5GHz). This ultra wide bandwidth (UWB) is commercially explored for even faster data transfer using traditional, multi-band (OFDM) RF techniques. However, the available bandwidth is wide enough for impulse radio transmission giving new functionality and new implementation challenges. In this talk I will show how power efficient impulse radio solutions are feasible in standard digital CMOS technology. Quite non-standard and untraditional design strategies must be used including time-domain signal processing. Circuit topologies for higher order Gaussian pulse generation and power efficient, correlating RAKE receivers will be explained. Impulse radio transmissions have additional interesting properties compared to narrowband modulation. With time-domain processing (TDOA) highly accurate positioning is feasible in the millimeter range. Improved sensitivity for robust communication. Large number of channels (greater than 100). Novel applications are also feasible using impulse transmission. Combining novel design techniques like "Swept-Threshold sampling" and digital lossless integration, micropower impulse radar is feasible in CMOS. A 60GHz sampler is used to accumulate and recover reflected electromagnetic energy. These new sensing devices (medical radar) may be explored for reading vital body signs (pulse, breathing, blood pressure?) embedded in your car seat or hospital emergency bed (detached sensor). Just imagine what you can do looking though heavy matter! Single chip CMOS impulse radar will be demonstrated at the end of the talk. Speaker: Tor Sverre Lande Tor Sverre (Bassen) Lande is a professor in Microelectronics at the Dept. of Informatics, Univ. of Oslo. From 2004 he is also serving as visiting professor at Institute of Biomedical Engineering, Imperial College, London, UK. His primary research is related to microelectronics, both digital and analog. Research fields are Neuromorphic Engineering, analog signal processing, micropower circuit design, biomedical circuits and systems and impulse radio. He is the author or co-author of more than 90 scientific publications with chapters in two books.

The Wow! signal was a strong, narrowband radio signal detected by Dr. Jerry R. Ehman on August 15, 1977 while working on a SETI project at the Big Ear radio telescope of Ohio State University. The signal bore expected hallmarks of potential non-terrestrial and non-solar system origin. It lasted for 72 seconds, the full duration Big Ear observed it, but has not been detected again. It has been the focus of attention in the mainstream media when talking about SETI results. Amazed at how closely the signal matched the expected signature of an interstellar signal in the antenna used, Ehman circled the signal on the computer printout and wrote the comment "Wow!" on its side. This comment became the name of the signal.

The beginnings of a new mechanical television I am building. This is technology from the 20s & 30s brought back to life.

In this first Audio Mastering Tutorial, I will be using the plug-in "Nebula" by Acoustica Audio, Acusticaudio.net to introduce the use of my "Mastering Suite" eq's. The first tutorial shows a simple first example of using narrow band eq's to sweep the frequencies of a recording to eliminate an unwanted sound.

The first of a new series called gerdtube, this video explains the differences between a narrowband or disconnected world, and a broadband connected world. Users become creators, copyright morphs into usage right (i.e. licensing), ads become content.

This is the all important formular required for decoding the 32 line mechanical tv format. This vid was originally recorded at 96kbs 160 X 120 for emailing, however still showcases the formular no problem.