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En las comunicaciones inalámbricas un canal con fading es un canal de comunicación que experimenta desvanecimiento. El fading es la variación en la atenuación que experimenta una señal y depende de múltiples variables, estas variables pueden ser por la propagación multitrayecto, el clima (en especial la lluvia), la posición geográfica, los obstáculos naturales o artificiales y la frecuencia de operación del sistema.
Al hacer esta captura urbana y en base a esto que he comentado, se me ocurrió hacer a la imagen esta edicíón un tanto particular.
In wireless communications, a fading channel is a communication channel that experiences signal loss. Fading is the variation in attenuation experienced by a signal and depends on multiple variables, these variables can be due to multipath propagation, weather (especially rain), geographical position, natural or artificial obstacles and the system operating frequency.
When making this urban capture and based on this that I have commented, it occurred to me to make this somewhat particular edition to the image.
Cámara Nikon D850 con lente Nikkor 24-120 F4/G-VR editada con Camera Raw y Photoshop CC 2019.
Recomiendo hacer doble click sobre la imagen y ver en grande.
I recommend see in larger, clicking double on the imagen.
Multipath @ 2022 Limassol, Cyprus
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f/16 | 8 sec | ISO 200 | 17 mm
Kase Filter System K100
Wolverine ND64 ND 1.8 6 Stops
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Theme : Long Exposure Photography
Series : Seascape World
Location: Limassol, Cyprus
Website: etilavgis.com
Instagram : www.instagram.com/estjustphoto/
Flickr : flickr.com/photos/estjustphoto/
500px : 500px.com/etilavgis
YouPic : youpic.com/photographer/etilavgis
Spiderwebs in morning light. Zeiss C-Sonnar T* 1.5/50 with extension tubes. Sony a7rIV ISO 100 f/1.5 1/320s
Love the iridescent colours in the webs behind the focal plane. The colour bands are in focus in the segments where the webs are blurred. Not a continuous rainbow that would be produced by refraction, this banded pattern represents multipath diffraction. Like the double-slit experiment in high school physics, this is a quantum Interference pattern.
Sunlight is both diffracted and refracted by the microscopic sticky drops along the length of the spiders catch-thread, each wavelenth refracted to a different degree. A quantum interference pattern develops in front of the web for each colour, the web itself out of focus, as the photons constructively or destructively interfere with themselves.
For in order to make a band of blue colour, each of those blue photons has passed through at least two sticky drops on the catch-thread simultaneously, in quantum superposition. Makes sense for waves, not so much for particles. Yet single photons fired through the double-slits one by one will still interfere with themselves and build up a banded interference pattern over time. Wave-particle duality, the heart of quantum physics. Spiderwebs. Spooky.
1974
The Marantz 4230 is created for stereo and 4 channel (Quadraphonic) sources. Marantz called the concept sonorous "Stereo 2 + Quadradial 4". Some quadro decoder systems are on board. For an optional SQ decoder, there is a recess in the base plate, it can simply docked.
The rated output of 2x40 watts or 4x17 watts was always outbid in tests thanks to the Marantz typical transformer dimension. For the good FM reception with the possibility of multipath signal evaluation is a high quality FM front end module responsible.
The versatile enabled receiver 4240 from the legendary first 70 series is true fun and gives an entirely sophisticated impression. It sounds like it's visual impression - great!
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Der Marantz 4230 kann Stereo und 4-Kanal (Quadrofonie) Quellen wiedergeben. Marantz nannte das Konzept die klangvoll „Stereo 2 + Quadradial 4“. Einige Quadro Decodersysteme sind an Bord, für einen optionalen SQ-Decoder gibt es eine Aussparung im Bodenblech; er wird einfach angedockt.
Die Nennleistung von 2x40 Watt oder 4x17 Watt wurde in Tests Dank der Marantz-typischen Trafo-Dimension stets locker überboten. Für den guten FM-Empfang mit Möglichkeit zur Multipath Signal Bewertung ist ein hochwertiges FM Frontend Modul verantwortlich.
Der vielseitig ausgestattete Receiver aus der legendären ersten 70er Baureihe macht Spass und vermittelt einen gänzlich wertigen Eindruck. Er klingt wie sein optischer Eindruck - Klasse!
1974
The Marantz 4230 is created for stereo and 4 channel (Quadraphonic) sources. Marantz called the concept sonorous "Stereo 2 + Quadradial 4". Some quadro decoder systems are on board. For an optional SQ decoder, there is a recess in the base plate, it can simply docked.
The rated output of 2x40 watts or 4x17 watts was always outbid in tests thanks to the Marantz typical transformer dimension. For the good FM reception with the possibility of multipath signal evaluation is a high quality FM front end module responsible.
The versatile enabled receiver 4240 from the legendary first 70 series is true fun and gives an entirely sophisticated impression. It sounds like it's visual impression - great!
-
Der Marantz 4230 kann Stereo und 4-Kanal (Quadrofonie) Quellen wiedergeben. Marantz nannte das Konzept die klangvoll „Stereo 2 + Quadradial 4“. Einige Quadro Decodersysteme sind an Bord, für einen optionalen SQ-Decoder gibt es eine Aussparung im Bodenblech; er wird einfach angedockt.
Die Nennleistung von 2x40 Watt oder 4x17 Watt wurde in Tests Dank der Marantz-typischen Trafo-Dimension stets locker überboten. Für den guten FM-Empfang mit Möglichkeit zur Multipath Signal Bewertung ist ein hochwertiges FM Frontend Modul verantwortlich.
Der vielseitig ausgestattete Receiver aus der legendären ersten 70er Baureihe macht Spass und vermittelt einen gänzlich wertigen Eindruck. Er klingt wie sein optischer Eindruck - Klasse!
1974
The Marantz 4230 is created for stereo and 4 channel (Quadraphonic) sources. Marantz called the concept sonorous "Stereo 2 + Quadradial 4". Some quadro decoder systems are on board. For an optional SQ decoder, there is a recess in the base plate, it can simply docked.
The rated output of 2x40 watts or 4x17 watts was always outbid in tests thanks to the Marantz typical transformer dimension. For the good FM reception with the possibility of multipath signal evaluation is a high quality FM front end module responsible.
The versatile enabled receiver 4240 from the legendary first 70 series is true fun and gives an entirely sophisticated impression. It sounds like it's visual impression - great!
-
Der Marantz 4230 kann Stereo und 4-Kanal (Quadrofonie) Quellen wiedergeben. Marantz nannte das Konzept die klangvoll „Stereo 2 + Quadradial 4“. Einige Quadro Decodersysteme sind an Bord, für einen optionalen SQ-Decoder gibt es eine Aussparung im Bodenblech; er wird einfach angedockt.
Die Nennleistung von 2x40 Watt oder 4x17 Watt wurde in Tests Dank der Marantz-typischen Trafo-Dimension stets locker überboten. Für den guten FM-Empfang mit Möglichkeit zur Multipath Signal Bewertung ist ein hochwertiges FM Frontend Modul verantwortlich.
Der vielseitig ausgestattete Receiver aus der legendären ersten 70er Baureihe macht Spass und vermittelt einen gänzlich wertigen Eindruck. Er klingt wie sein optischer Eindruck - Klasse!
This is one of the finest FM tuners I have ever had the pleasure of using; easily on a par with the best from Macintosh, Sansui and others I've owned. Produced during the late 1970's, the 2130 was the penultimate result of a specifications and fidelity war in the consumer tuner and receiver market. Marantz pretty much pulled out all the stops for this one, and you can hear it if you have a good FM station to listen to. Personally, I pipe either a CD changer or Sirius satellite radio down some 75 ohm coax and have it hooked into every FM receiver in my home; keeps me from having to listen to the farm report and the other things my community (apparently) wants the local FM station to play. The compression on satellite radio doesn't result in extremely high fidelity, but if the choice has to be tolerable music at moderate fidelity, and high fidelity dreck... I'll take the moderate fidelity every time. At least I can count on the 2130 getting the best reproduction of the audio I have available to me. :)
The oscilloscope on the left can display tuning (center and strength at the same time), multipath, and audio. In audio mode, the left and right channels drive the horizontal and vertical signals respectively, so a mono signal draws a 45 degree line and stereo signals draw various elliptical patterns. It's quite informative, you can see how much separation there is at any one moment, and any noise comes through as fuzz on the trace. For multipath, the scope makes antenna adjustment (beam FM antennas) 100% accurate, you can tell instantly when you've got the antenna pointed in the optimum direction. The scope also has external inputs so you can monitor audio from the rest of your stereo system. On the front, there are horizontal and vertical positioning controls and an external level adjust. On the rear deck are focus and brightness adjustments; I've never had to touch them.
Aside from the scope and its controls, the tuner provides controls for two IF bandwidths, switchable AFC ("Quartz Lock"), mono/stereo, muting level and output level, 400 Hz calibration tone for Dolby recording, high blend (multiplex noise filter) and switchable Dolby demodulation (the latter being useless to most people now, as no station uses this anymore... but I just happen to have a low-power ultra-hifi Dolby FM transmitter... :)
The AFC switches off when you have your hand on the dial, so you can tune normally. It feels silky smooth, and the tuner's ability to separate stations makes tuning quite crisp when you're on-station. As soon as you take your fingers off the knob, the AFC locks back in (if you have it on, of course) and the scope shows the station perfectly centered. The lock LED shows that the AFC is operating.
The AM side of the tuner is pretty good, but not up to the standards of the FM side. Too bad; it's not all that difficult to make a good AM tuner, but very few manufacturers ever paid proper attention to the problem in a consumer audio context. One notable exception to that being Sanyo. Not that it matters anymore; quality AM broadcasting, sad to say, is dying. The airwaves are filled with talking heads. Babbling heads. Something like that.
From time to time, you can find 2130 tuners for sale on EBay. My advice is, if you like FM listening, grab one. They're incredibly underpriced. They generally go for $500 to $750, depending on condition; but you can't buy a comparably performing tuner today for under five grand, and even then, you won't get some of the amenities you get with one of these. No kidding. If you like FM, this baby is the brass ring.
The SA-9100 was Pioneer's finest professional stereo integrated amplifier at the time.
It features an all stage direct coupled pure complementary OCL circuit, resulting in a super wide bandwidth and distortion free power, a unique 3 stage direct coupled equalizer, twin stepped tone controls and level set volume and loudness contour controls to adjust listening preference.
Other features include 2-way tape duplicating and monitoring, 2 position high and low filters and 3 pairs of speaker output terminals.
Specifications:
Power output: 60 watts per channel into 8Ω (stereo)
Frequency response: 10Hz to 70kHz
Total harmonic distortion: 0.1%
Damping factor: 70
Input sensitivity: 2mV (mic), 2.5mV (MM), 150mV (line)
Signal to noise ratio: 70dB (mic), 80dB (MM), 90dB (line)
Output: 150mV (line), 30mV (DIN), 2V (Pre out)
Speaker load impedance: 4Ω to 16Ω
Semiconductors: 63 x transistors, 30 x diodes
Dimensions: 430 x 138 x 341mm
Weight: 13.6kg
Year: 1974
The TX-9100 was Pioneer's finest professional FM/MW stereo tuner.
It has an outstanding FM front end section, 5 gang variable capacitor and 2 stage RF amplifiers. Phase linear ceramic filters are used in the FM IF section for excellent selectivity and phase characteristics, and a unique PLL MPX circuit that improves stereo separation.
Special features include a pulse noise suppressor, 2 step FM muting switch, multipath output terminals, MPX noise filter, independent AM and FM output level controls, headphone output jack, dual meter tuning system and linear dial scale.
Specifications
Type: Mono/Stereo Tuner
Tuning Bands: FM, MW
Tuning Scale: Analogue
Sensitivity: 1.5uV (FM), 300uV (MW)
Signal to Noise Ratio: 75dB (FM), 50dB (MW)
Distortion: 0.3% (FM)
Selectivity: 90dB (FM), 40dB (MW)
Frequency response: 20Hz to 15kHz (FM)
Output: 650mV
Semiconductors: 6 x FET, 9 x IC, 35 x transistors, 27 x diodes
Dimensions: 430 x 138 x 345mm
Weight: 8.9kg
Year: 1974
1974
The Marantz 4230 is created for stereo and 4 channel (Quadraphonic) sources. Marantz called the concept sonorous "Stereo 2 + Quadradial 4". Some quadro decoder systems are on board. For an optional SQ decoder, there is a recess in the base plate, it can simply docked.
The rated output of 2x40 watts or 4x17 watts was always outbid in tests thanks to the Marantz typical transformer dimension. For the good FM reception with the possibility of multipath signal evaluation is a high quality FM front end module responsible.
The versatile enabled receiver 4240 from the legendary first 70 series is true fun and gives an entirely sophisticated impression. It sounds like it's visual impression - great!
-
Der Marantz 4230 kann Stereo und 4-Kanal (Quadrofonie) Quellen wiedergeben. Marantz nannte das Konzept die klangvoll „Stereo 2 + Quadradial 4“. Einige Quadro Decodersysteme sind an Bord, für einen optionalen SQ-Decoder gibt es eine Aussparung im Bodenblech; er wird einfach angedockt.
Die Nennleistung von 2x40 Watt oder 4x17 Watt wurde in Tests Dank der Marantz-typischen Trafo-Dimension stets locker überboten. Für den guten FM-Empfang mit Möglichkeit zur Multipath Signal Bewertung ist ein hochwertiges FM Frontend Modul verantwortlich.
Der vielseitig ausgestattete Receiver aus der legendären ersten 70er Baureihe macht Spass und vermittelt einen gänzlich wertigen Eindruck. Er klingt wie sein optischer Eindruck - Klasse!
So, here's the latest as of July 8th, 2016. That's the 20 meter amateur radio band -- dead as a door-nail in the middle of the afternoon. No signals. Those spikes are RFI coming from the various and sundry electronic gear around here, they aren't proper radio transmissions. One day, I'll figure out what's making them and take a sledgehammer to whatever it is. :)
hah... figured it out. Long ethernet cable. Changed the units on the end of it (Amazon Fire TV, XBox360) to wifi, end of QRM. Ahhhh....
We are approaching the valley of the sunspot cycle. As the sunspots decrease in number and intensity, so too does signal propagation in the range of 10 MHz and higher. This is a huge downside for HF radio enthusiasts; long distance communications are almost impossible during the day, and this will last for about 6 years before it begins to get better again.
There is a slightly silver lining to this, which is that the sun is never quite dead, even in the depths of the sunspot minima. Every once in a while the sun throws a serious belch, and when it does, the band will come alive for a few hours, or even a few days. At which point there will be much excitement, flapping of jaws, and (virtual) knob-twisting. :)
Anyway, the most recent new features I've added in version 2.16o include variably timed auto-hide of the on-waterfall guides, and cross-bucket spectrum and waterfall smoothing. 2.16o is available for both OS X and Windows, in both cases, as a beta release. You can get the software (it's free) at fyngyrz.com. It supports RFSPACE, Andrus, AFEDRI and FunCube SDRs under both OS X and Windows. Additionally, under OS X, you can use the ultra-cheap RTL-SDR sticks. Just keep in mind that the reason they are ultra cheap is that they are ultra lousy performers for anything but FM signals.
Among other things, for about $20 or so spent on such a stick, you get an FM stereo capability better than the most expensive tuners ever made, bar none, in almost every way. Better selectivity, better ultimate signal to noise ratio, better frequency response, better pilot suppression, multipath and XY separation scopes, mono and auto-stereo modes, user-configurable multiplex filtering for weaker stereo signals, white and pink noise generators, full RDS capability... not too bad, eh? The only thing you will run into is not-superb FM sensitivity. For that, you will need to choke up more money for a quality SDR capable of 200 KHz or more bandwidth at VHF frequencies and a hot front end. Which is a purchase well worth it, in my opinion.
What is Multiple Clipping Path?
Multiple Clipping Path or Color Path is an extension to the use of clipping path. Multiple Clipping Path is the process of using clipping path/silo/silhouetting to change the color of an individual or parts of an image/photo, make color correction or add an extra color effect. Multiple clipping path or color path/color correction is used for those images that require isolation of parts and change the color around individual components. It is also done to split some parts of the image for further image editing/manipulation in Photoshop or do swatches match.
If you looking for Clipping Path or Background remove services in any quantity ? Clipping Path Advance (CPA) think then you have found the right place for it. Clipping Clipping Path Advance (CPA) have more Photoshop experts, skilled workers, advisers all are here to help you! If you send your job we will confirm to you best quality results! Outsourcing is a popular concept these days for such type of works which are not very complicated but needs a lot of time and manpower too.
Multiple Clipping Path Classification:
Color Separation for Multi path
Object for Multipath
Vector for Multi path
Who needs Multiple Clipping path services?
Companies or individuals those are involved in professional photography, photographic studios, magazine companies, advertising agencies, photographic studios, print press, graphic design companies and web development etc.
Regarding Price,
Normally we provide a quotation after review the job as per clients instruction and we reply quotation within 1 hour or less. Also, we provide average pricing on bulk volume of images. Price will depend on the image and work complexity. But don’t worry, if you are not sure about the actual cost, and we will get back within an hour with the most reasonable price.
Our price for multiple clipping path starts at $ 0.99 USD only for each image. For stuffs like dresses, accessories, the range might go around $ 1.29 USD only, depending on the complexity.
After being constantly jealous of Aaron Parecki's and recently Charlie Loyd's awesome visualizations of years of GPS data, I started collecting some of my own.
This is about a week of GPS data from my (Samsung Galaxy S) phone.
Color is speed, green is fastest -- about 30 mph (bus trip) and red is slow. Size of the points is based on accuracy, but is not calibrated.
You can clearly see a walk I took to Safeway one day and several variations of bike routes downtown. Also noticeable is the really bad accuracy downtown where multipath and blocked signals from buildings really hurt GPS.
oracle wallpaper mac4linoios icons gnomelook.org
creativecommons.org/licenses/by-sa/3.0/
Overview
Oios and illumos technologies provide the best platform available today, with cutting edge features, many of which cannot be found on other operating systems:
ZFS – the last word in filesystems
Zones – a Lightweight Virtualisation Technology
SMF – the Service Management Facility for software lifecycle control
IPS – a next generation network based package management system
FMA – the Fault Management Architecture
COMSTAR – an enterprise SCSI target system supporting iSCSI/iSER/FC/FCOE
Crossbow – a next generation fully virtualised high performance network stack
DTrace – an extensive, deep diagnosis and debugging framework
Boot Environments – transactional operating system upgrades with rollback
Role Based Access Control – RBAC allows granting least-privilege access to processes and users
IP Multipathing – IPMP provides high availability networking and greater bandwidth
Integrated L3/L4 kernel mode Load Balancer
Integrated VRRP IP failover facility
Deliver remote services to clients with desktop sharing and terminal services
Overview
www.youtube.com/watch?v=fQDAMCzkhHc
The initial plan was to follow the Kukui trees. But for once, our Garmin 60CSX's let us down and got a crappy lock on (multipath error). The Olokele Gorge is narrow and claustrophobic along this stretch and you can't get a good view of the slopes above. So we ended up to the left of our intended route.
The rock bands were at the verge of fifth class and could probably be climbed by many. But I'm an old fart who can trip walking across a parking lot. We went right at both rock bands.
Later research: The bad GPS performance was caused by reflection of the signal off the side of the canyon. First time I've encountered this problem. Also called multipath error.
please visit
for more details
Kenwood KT 7500 am - fm stereo tuner
www.youtube.com/user/sakamatra1
Specifications
Year circa 70s
Model FM / AM tuner
Antenna impedance
300Ω balanced, 75Ω unbalanced
Sensitivity (IHF) 1.8μV
(SN ratio 50dB)
mono 3.8μV,
stereo 45μV
Distortion (400Hz, 100% modulation)
mono 0.1%
stereo 0.2%
SN ratio (100% modulation, 1mV input)
mono 75dB
stereo 68dB
Image ratio 85dB
Selectivity (IHF) 80dB
Hi IF interference 90dB
AM suppression ratio 60dB
Stereo 45dB (400Hz)
35dB (50Hz ~ 10kHz)
Frequency Characteristics
50Hz ~ 10kHz +0.2-0.3dB
30Hz ~ 15kHz +0.2-1.5dB
Receive Frequency 520kHz ~ 1605kHz
Sensitivity (IHF) 18μV
Distortion 0.5%
SN ratio (30% modulation, 1mV input) 50dB
Image ratio 60dB
Selectivity (IHF) 35dB
General
Output Level / Impedance
FM (400Hz, 100% modulation) 0V 1.2V/2.5kΩ
AM (400Hz, 30% modulation) 0V ~ 0.3V/2.5kΩ
FM det out 250mV/1.5kΩ
Multipath Output 0.2V/1kΩ
Supply Voltage AC220V, 50Hz/60Hz
Rated power consumption (Electrical Appliance and Material Control Law) 13W
External dimensions 430 × 149 × 376 mm
Weight 8kg
Mannheim, Collini Center @ 12:38h, 24/10/2008
www.topconpositioning.com/products/gps/antennas/pg-a1.html
The PG-A1 is a precision dual-frequency, dual-constellation antenna featuring precision micro center technology and an integrated ground plane to help eliminate errors caused by multipath. The PG-A1 was designed to accompany the Topcon modular receivers such as the Legacy-E, Legacy-H and Odyssey-RS.
Topcon continues it's lead in GPS technology with the compact and ultra-rugged PGA antennas. These high precision GPS micro centered antennas are an exciting addition to the complete line of Topcon GPS products and are available as either a standard dual-frequency, dual-constellation antenna (PG-A1) or with the addition of integrated UHF (PG-A2).
The Hotel & Casino In-Room is an open system that consists of a main commercial satellite installation terminated to a commercial/licensed Motorola SE/3000 MPEG-2 High Definition Encoder, purchased with a commercial broadcast license. The commercial Motorola Encoder writes the stream to a disc array, while at the same time, the stream is made available to the HP Integrity cluster through multipath i/o on a fiber Storage Area Network. The HP Cluster uses Wowza Media server to make this stream available to a client application. The HP Cluster uses ID Quantique SA for Network Encryption and RNG running Linux. The client application, using a custom linux build, provides ONDemand content (pay-per-view) and gambling applications.
The custom Linux build includes a custom fabricated chassis that provides a motherboard, credit card reader, bill validator, ticket printer and touch screen.
Through a Python application the gambling platform is able to communicate with the hardware through flash to the server side. The Class III gambling applications include multi-table games, slot/table games, and sportsbook. This open system combines to provide patrón's of a hotel chain with a casino managed in-room gambling and pay-per-view experience.
ISO declarations for the build, install and run include iTechLabs, NATA, IDQ, METAS/FDJP, CEA Grenoble/CESTI-LETI, BSI, and ANSSI.
Presentation included a private investor group in North and Central America, qualifying for private placement of $100M [USD].
For enquiries relating to speaking engagements, please email:
speaker@vegas.management
Welcome!
# # #
MAJOR GENERAL SIR TREVOR BISCOPE serves HM as the COMMANDER.
VEGAS™ is a trademark of Trevor Biscope. Complies with: DoD, DAOD 2008-6, 5002-10, 6001-1 and KR&O 19-36.
Kansei Wheels Corsa 18x9 in Hyper Silver W/ Machined Lip.
Available in 18x9 | 18x9.5 | 18x10.5
ET +12 | +22 | +35
5x100 | 5x112 | 5x114.3 | 5x120.
For inquiries, please email sales@kanseiwheels.com
Both fileservers are connected via independent FC switches to both controllers on each SATABeast array.
The SATABeasts are operating in "all LUNS, all ports" mode which exposes all drive volume LUNS across both internal controllers.
This allows each fileserver to see each RAID6 volume twice via independent paths through different switches, controllers and HBA's. Linux multipath and device mapper code handle load balancing and failover should one path fail.
The idea being that this gives us a nice level of safety and redundancy.
The final bit of secret sauce is a RHEL fileserver cluster using clustered GFS and LVM to stitch the volumes together into a single ~90 terabyte volume.
The 3rd Security Force Assistance Brigade (SFAB) is utilizing its new expeditionary network communications package during its training rotation at the Joint Readiness Training Center at Fort Polk, Louisiana. Seen here, the unit is leveraging its agile inflatable Transportable Tactical Command Communications (T2C2) satellite terminals, Scalable Class of Unified Terminals (SCOUT) satellite terminals, and hand-held end user devices.
The SFAB’s new agile equipment kit includes new expeditionary satellite terminals, mobile broadband kits, radio waveforms, a two-channel Leader Radio, single channel radios, end user devices, network gateways, unified network operations tools and data products. This innovative resilient network communications package can be tailored to support small teams, rapid deployment into theater and quick reaction across a wide austere operational area. These capabilities work together to provide continuous agile communications and multipath diversity, enabling the SFABs to leverage both military and commercial cellular networks to transfer data between U.S. forces and coalition partners.
(U.S. Army photos by JRTC PAO, John Beckwith)
The 3rd Security Force Assistance Brigade (SFAB) is utilizing its new expeditionary network communications package during its training rotation at the Joint Readiness Training Center at Fort Polk, Louisiana. Seen here, the unit is leveraging its agile inflatable Transportable Tactical Command Communications (T2C2) satellite terminals, Scalable Class of Unified Terminals (SCOUT) satellite terminals, and hand-held end user devices.
The SFAB’s new agile equipment kit includes new expeditionary satellite terminals, mobile broadband kits, radio waveforms, a two-channel Leader Radio, single channel radios, end user devices, network gateways, unified network operations tools and data products. This innovative resilient network communications package can be tailored to support small teams, rapid deployment into theater and quick reaction across a wide austere operational area. These capabilities work together to provide continuous agile communications and multipath diversity, enabling the SFABs to leverage both military and commercial cellular networks to transfer data between U.S. forces and coalition partners.
(U.S. Army photos by JRTC PAO, John Beckwith)
The 3rd Security Force Assistance Brigade (SFAB) is utilizing its new expeditionary network communications package during its training rotation at the Joint Readiness Training Center at Fort Polk, Louisiana. Seen here, the unit is leveraging its agile inflatable Transportable Tactical Command Communications (T2C2) satellite terminals, Scalable Class of Unified Terminals (SCOUT) satellite terminals, and hand-held end user devices.
The SFAB’s new agile equipment kit includes new expeditionary satellite terminals, mobile broadband kits, radio waveforms, a two-channel Leader Radio, single channel radios, end user devices, network gateways, unified network operations tools and data products. This innovative resilient network communications package can be tailored to support small teams, rapid deployment into theater and quick reaction across a wide austere operational area. These capabilities work together to provide continuous agile communications and multipath diversity, enabling the SFABs to leverage both military and commercial cellular networks to transfer data between U.S. forces and coalition partners.
(U.S. Army photos by JRTC PAO, John Beckwith)
The 3rd Security Force Assistance Brigade (SFAB) is utilizing its new expeditionary network communications package during its training rotation at the Joint Readiness Training Center at Fort Polk, Louisiana. Seen here, the unit is leveraging its agile inflatable Transportable Tactical Command Communications (T2C2) satellite terminals, Scalable Class of Unified Terminals (SCOUT) satellite terminals, and hand-held end user devices.
The SFAB’s new agile equipment kit includes new expeditionary satellite terminals, mobile broadband kits, radio waveforms, a two-channel Leader Radio, single channel radios, end user devices, network gateways, unified network operations tools and data products. This innovative resilient network communications package can be tailored to support small teams, rapid deployment into theater and quick reaction across a wide austere operational area. These capabilities work together to provide continuous agile communications and multipath diversity, enabling the SFABs to leverage both military and commercial cellular networks to transfer data between U.S. forces and coalition partners.
(U.S. Army photos by JRTC PAO, John Beckwith)
PdM SATCOM, in conjunction with the Army Test Command (ATC), concluded two weeks of developmental testing focused on Helicopter Sling Loading of the fourth Phoenix E-Model prototype at APG, MD, on 13 Oct 2020, to ensure that the complete system can be safely transported to a landing zone by any of the Army's helicopter variants. This phase of testing is one of multiple requirements to ensure the safety and transportability of vehicles and ancillary equipment. Over the past year, the 50th Expeditionary Signal Battalion-Enhanced (ESB-E) has been providing Soldier feedback on the Phoenix –E Model Prototypes to inform design and fielding decisions to modernize the Army’s legacy ESBs.
Phoenix ground satellite terminals enable ESBs to provide large division and corps headquarters with agile high-bandwidth network communications. They are used for high-throughput missions, which include Unmanned Aerial System feeds, video teleconferencing, and large numbers of subscribers and computers on the network. Like the legacy version, the Phoenix E-Model Prototype operates on four different satellite bands (military X/Ka and commercial C/Ku-bands), however, its dual-head capability enables the use of two antennas on two different frequency bands, or two different satellites, simultaneously. This reduces manning requirements for equivalent capability, doubles bandwidth throughput, and enhances multipath diversity and resiliency within the tactical network. In addition to operating on traditional Geosynchronous Earth Orbit (GEO) satellites, the systems also have the potential for growth to operate on existing Medium Earth Orbit (MEO) constellations. The legacy Phoenix is completely vehicle based, with a permanent vehicle-mounted antenna. Contrarily, if needed, the new E-Model enables Soldiers to remove the equipment from the vehicle in transit cases so they can (quickly and easily) deploy and operate the system (based on operational requirements), increasing the unit’s expeditionary nature, mobility and operational flexibility in support of a variety of missions around the world.
The 3rd Security Force Assistance Brigade (SFAB) is utilizing its new expeditionary network communications package during its training rotation at the Joint Readiness Training Center at Fort Polk, Louisiana. Seen here, the unit is leveraging its agile inflatable Transportable Tactical Command Communications (T2C2) satellite terminals, Scalable Class of Unified Terminals (SCOUT) satellite terminals, and hand-held end user devices.
The SFAB’s new agile equipment kit includes new expeditionary satellite terminals, mobile broadband kits, radio waveforms, a two-channel Leader Radio, single channel radios, end user devices, network gateways, unified network operations tools and data products. This innovative resilient network communications package can be tailored to support small teams, rapid deployment into theater and quick reaction across a wide austere operational area. These capabilities work together to provide continuous agile communications and multipath diversity, enabling the SFABs to leverage both military and commercial cellular networks to transfer data between U.S. forces and coalition partners.
(U.S. Army photos by JRTC PAO, John Beckwith)
PdM SATCOM, in conjunction with the Army Test Command (ATC), concluded two weeks of developmental testing focused on Helicopter Sling Loading of the fourth Phoenix E-Model prototype at APG, MD, on 13 Oct 2020, to ensure that the complete system can be safely transported to a landing zone by any of the Army's helicopter variants. This phase of testing is one of multiple requirements to ensure the safety and transportability of vehicles and ancillary equipment. Over the past year, the 50th Expeditionary Signal Battalion-Enhanced (ESB-E) has been providing Soldier feedback on the Phoenix –E Model Prototypes to inform design and fielding decisions to modernize the Army’s legacy ESBs.
Phoenix ground satellite terminals enable ESBs to provide large division and corps headquarters with agile high-bandwidth network communications. They are used for high-throughput missions, which include Unmanned Aerial System feeds, video teleconferencing, and large numbers of subscribers and computers on the network. Like the legacy version, the Phoenix E-Model Prototype operates on four different satellite bands (military X/Ka and commercial C/Ku-bands), however, its dual-head capability enables the use of two antennas on two different frequency bands, or two different satellites, simultaneously. This reduces manning requirements for equivalent capability, doubles bandwidth throughput, and enhances multipath diversity and resiliency within the tactical network. In addition to operating on traditional Geosynchronous Earth Orbit (GEO) satellites, the systems also have the potential for growth to operate on existing Medium Earth Orbit (MEO) constellations. The legacy Phoenix is completely vehicle based, with a permanent vehicle-mounted antenna. Contrarily, if needed, the new E-Model enables Soldiers to remove the equipment from the vehicle in transit cases so they can (quickly and easily) deploy and operate the system (based on operational requirements), increasing the unit’s expeditionary nature, mobility and operational flexibility in support of a variety of missions around the world.
PdM SATCOM, in conjunction with the Army Test Command (ATC), concluded two weeks of developmental testing focused on Helicopter Sling Loading of the fourth Phoenix E-Model prototype at APG, MD, on 13 Oct 2020, to ensure that the complete system can be safely transported to a landing zone by any of the Army's helicopter variants. This phase of testing is one of multiple requirements to ensure the safety and transportability of vehicles and ancillary equipment. Over the past year, the 50th Expeditionary Signal Battalion-Enhanced (ESB-E) has been providing Soldier feedback on the Phoenix –E Model Prototypes to inform design and fielding decisions to modernize the Army’s legacy ESBs.
Phoenix ground satellite terminals enable ESBs to provide large division and corps headquarters with agile high-bandwidth network communications. They are used for high-throughput missions, which include Unmanned Aerial System feeds, video teleconferencing, and large numbers of subscribers and computers on the network. Like the legacy version, the Phoenix E-Model Prototype operates on four different satellite bands (military X/Ka and commercial C/Ku-bands), however, its dual-head capability enables the use of two antennas on two different frequency bands, or two different satellites, simultaneously. This reduces manning requirements for equivalent capability, doubles bandwidth throughput, and enhances multipath diversity and resiliency within the tactical network. In addition to operating on traditional Geosynchronous Earth Orbit (GEO) satellites, the systems also have the potential for growth to operate on existing Medium Earth Orbit (MEO) constellations. The legacy Phoenix is completely vehicle based, with a permanent vehicle-mounted antenna. Contrarily, if needed, the new E-Model enables Soldiers to remove the equipment from the vehicle in transit cases so they can (quickly and easily) deploy and operate the system (based on operational requirements), increasing the unit’s expeditionary nature, mobility and operational flexibility in support of a variety of missions around the world.
PdM SATCOM, in conjunction with the Army Test Command (ATC), concluded two weeks of developmental testing focused on Helicopter Sling Loading of the fourth Phoenix E-Model prototype at APG, MD, on 13 Oct 2020, to ensure that the complete system can be safely transported to a landing zone by any of the Army's helicopter variants. This phase of testing is one of multiple requirements to ensure the safety and transportability of vehicles and ancillary equipment. Over the past year, the 50th Expeditionary Signal Battalion-Enhanced (ESB-E) has been providing Soldier feedback on the Phoenix –E Model Prototypes to inform design and fielding decisions to modernize the Army’s legacy ESBs.
Phoenix ground satellite terminals enable ESBs to provide large division and corps headquarters with agile high-bandwidth network communications. They are used for high-throughput missions, which include Unmanned Aerial System feeds, video teleconferencing, and large numbers of subscribers and computers on the network. Like the legacy version, the Phoenix E-Model Prototype operates on four different satellite bands (military X/Ka and commercial C/Ku-bands), however, its dual-head capability enables the use of two antennas on two different frequency bands, or two different satellites, simultaneously. This reduces manning requirements for equivalent capability, doubles bandwidth throughput, and enhances multipath diversity and resiliency within the tactical network. In addition to operating on traditional Geosynchronous Earth Orbit (GEO) satellites, the systems also have the potential for growth to operate on existing Medium Earth Orbit (MEO) constellations. The legacy Phoenix is completely vehicle based, with a permanent vehicle-mounted antenna. Contrarily, if needed, the new E-Model enables Soldiers to remove the equipment from the vehicle in transit cases so they can (quickly and easily) deploy and operate the system (based on operational requirements), increasing the unit’s expeditionary nature, mobility and operational flexibility in support of a variety of missions around the world.
The Hotel & Casino In-Room is an open system that consists of a main commercial satellite installation terminated to a commercial/licensed Motorola SE/3000 MPEG-2 High Definition Encoder, purchased with a commercial broadcast license. The commercial Motorola Encoder writes the stream to a disc array, while at the same time, the stream is made available to the HP Integrity cluster through multipath i/o on a fiber Storage Area Network. The HP Cluster uses Wowza Media server to make this stream available to a client application. The HP Cluster uses ID Quantique SA for Network Encryption and RNG running Linux. The client application, using a custom linux build, provides ONDemand content (pay-per-view) and gambling applications.
The custom Linux build includes a custom fabricated chassis that provides a motherboard, credit card reader, bill validator, ticket printer and touch screen.
Through a Python application the gambling platform is able to communicate with the hardware through flash to the server side. The Class III gambling applications include multi-table games, slot/table games, and sportsbook. This open system combines to provide patrón's of a hotel chain with a casino managed in-room gambling and pay-per-view experience.
ISO declarations for the build, install and run include iTechLabs, NATA, IDQ, METAS/FDJP, CEA Grenoble/CESTI-LETI, BSI, and ANSSI.
Presentation included a private investor group in North and Central America, qualifying for private placement of $100M [USD].
For enquiries relating to speaking engagements, please email:
speaker@vegas.management
Welcome!
# # #
TREVOR BISCOPE serves HM as the COMMANDER.
VEGAS™ is a trademark of Trevor Biscope. Complies with: DoD, DAOD 2008-6, 5002-10, 6001-1 and QR&O 19-36.
The Hotel & Casino In-Room is an open system that consists of a main commercial satellite installation terminated to a commercial/licensed Motorola SE/3000 MPEG-2 High Definition Encoder, purchased with a commercial broadcast license. The commercial Motorola Encoder writes the stream to a disc array, while at the same time, the stream is made available to the HP Integrity cluster through multipath i/o on a fiber Storage Area Network. The HP Cluster uses Wowza Media server to make this stream available to a client application. The HP Cluster uses ID Quantique SA for Network Encryption and RNG running Linux. The client application, using a custom linux build, provides ONDemand content (pay-per-view) and gambling applications.
The custom Linux build includes a custom fabricated chassis that provides a motherboard, credit card reader, bill validator, ticket printer and touch screen.
Through a Python application the gambling platform is able to communicate with the hardware through flash to the server side. The Class III gambling applications include multi-table games, slot/table games, and sportsbook. This open system combines to provide patrón's of a hotel chain with a casino managed in-room gambling and pay-per-view experience.
ISO declarations for the build, install and run include iTechLabs, NATA, IDQ, METAS/FDJP, CEA Grenoble/CESTI-LETI, BSI, and ANSSI.
Presentation included a private investor group in North and Central America, qualifying for private placement of $100M [USD].
For enquiries relating to speaking engagements, please email:
speaker@vegas.management
Welcome!
# # #
TREVOR BISCOPE serves HM as the COMMANDER.
VEGAS™ is a trademark of Trevor Biscope. Complies with: DoD, DAOD 2008-6, 5002-10, 6001-1 and QR&O 19-36.
The Hotel & Casino In-Room is an open system that consists of a main commercial satellite installation terminated to a commercial/licensed Motorola SE/3000 MPEG-2 High Definition Encoder, purchased with a commercial broadcast license. The commercial Motorola Encoder writes the stream to a disc array, while at the same time, the stream is made available to the HP Integrity cluster through multipath i/o on a fiber Storage Area Network. The HP Cluster uses Wowza Media server to make this stream available to a client application. The HP Cluster uses ID Quantique SA for Network Encryption and RNG running Linux. The client application, using a custom linux build, provides ONDemand content (pay-per-view) and gambling applications.
The custom Linux build includes a custom fabricated chassis that provides a motherboard, credit card reader, bill validator, ticket printer and touch screen.
Through a Python application the gambling platform is able to communicate with the hardware through flash to the server side. The Class III gambling applications include multi-table games, slot/table games, and sportsbook. This open system combines to provide patrón's of a hotel chain with a casino managed in-room gambling and pay-per-view experience.
ISO declarations for the build, install and run include iTechLabs, NATA, IDQ, METAS/FDJP, CEA Grenoble/CESTI-LETI, BSI, and ANSSI.
Presentation included a private investor group in North and Central America, qualifying for private placement of $100M [USD].
For enquiries relating to speaking engagements, please email:
speaker@vegas.management
Welcome!
# # #
TREVOR BISCOPE serves HM as the COMMANDER.
VEGAS™ is a trademark of Trevor Biscope. Complies with: DoD, DAOD 2008-6, 6001-1 and QR&O 19-36.
PM Tactical Network (Product Manager Network Modernization) concluded new equipment training on the high-throughput Terrestrial Line Of Sight (TRILOS) Radio to the 2nd Brigade Combat Team, 3rd Infantry Division, at Fort Stewart, Georgia, last week.
Packed in a few rapidly deployable transit cases, the expeditionary TRILOS Radio provides a significant reduction in size, weight and power (SWaP) compared to the legacy at-the-halt High Capacity Line Of Sight (HCLOS) Radio that is replacing, which needed two sheltered-vehicles and two large antennas to relay information.The TRILOS Radio will increase the robustness of the Army’s tactical network by providing a significant increase in bandwidth versus the HCLOS radio, along with increased range, with lower latency than satellite communications. It also increases multipath diversity in congested and contested environments.
Additionally, TRILOS is a dual channel radio as opposed to HCLOS which is a single channel radio. Thus the TRILOS Radio can execute two responsibilities at the same time -- it provide point-to-point communications, but unlike the HCLOS, it will also provide point-to-multipoint communications, enabling Soldiers to shoot multiple shots with one antenna mast, versus needing extra antennas to shoot to multiple terminals. With TRILOS fewer radios, Soldiers and supporting resources are needed.
U.S. Army photos by Amy Walker, PM Tactical Network/PEO C3T Public Affairs
The Hotel & Casino In-Room is an open system that consists of a main commercial satellite installation terminated to a commercial/licensed Motorola SE/3000 MPEG-2 High Definition Encoder, purchased with a commercial broadcast license. The commercial Motorola Encoder writes the stream to a disc array, while at the same time, the stream is made available to the HP Integrity cluster through multipath i/o on a fiber Storage Area Network. The HP Cluster uses Wowza Media server to make this stream available to a client application. The HP Cluster uses ID Quantique SA for Network Encryption and RNG running Linux. The client application, using a custom linux build, provides ONDemand content (pay-per-view) and gambling applications.
The custom Linux build includes a custom fabricated chassis that provides a motherboard, credit card reader, bill validator, ticket printer and touch screen.
Through a Python application the gambling platform is able to communicate with the hardware through flash to the server side. The Class III gambling applications include multi-table games, slot/table games, and sportsbook. This open system combines to provide patrón's of a hotel chain with a casino managed in-room gambling and pay-per-view experience.
ISO declarations for the build, install and run include iTechLabs, NATA, IDQ, METAS/FDJP, CEA Grenoble/CESTI-LETI, BSI, and ANSSI.
Presentation included a private investor group in North and Central America, qualifying for private placement of $100M [USD].
For enquiries relating to speaking engagements, please email:
speaker@vegas.management
Welcome!
# # #
TREVOR BISCOPE serves HM as the COMMANDER.
VEGAS™ is a trademark of Trevor Biscope. Complies with: DoD, DAOD 2008-6, 6001-1 and QR&O 19-36.
The Hotel & Casino In-Room is an open system that consists of a main commercial satellite installation terminated to a commercial/licensed Motorola SE/3000 MPEG-2 High Definition Encoder, purchased with a commercial broadcast license. The commercial Motorola Encoder writes the stream to a disc array, while at the same time, the stream is made available to the HP Integrity cluster through multipath i/o on a fiber Storage Area Network. The HP Cluster uses Wowza Media server to make this stream available to a client application. The HP Cluster uses ID Quantique SA for Network Encryption and RNG running Linux. The client application, using a custom linux build, provides ONDemand content (pay-per-view) and gambling applications.
The custom Linux build includes a custom fabricated chassis that provides a motherboard, credit card reader, bill validator, ticket printer and touch screen.
Through a Python application the gambling platform is able to communicate with the hardware through flash to the server side. The Class III gambling applications include multi-table games, slot/table games, and sportsbook. This open system combines to provide patrón's of a hotel chain with a casino managed in-room gambling and pay-per-view experience.
ISO declarations for the build, install and run include iTechLabs, NATA, IDQ, METAS/FDJP, CEA Grenoble/CESTI-LETI, BSI, and ANSSI.
Presentation included a private investor group in North and Central America, qualifying for private placement of $100M [USD].
For enquiries relating to speaking engagements, please email:
speaker@vegas.management
Welcome!
# # #
MAJOR GENERAL SIR TREVOR DANIEL BISCOPE serves HM as the COMMANDER.
VEGAS™ is a trademark of Trevor Biscope. Complies with: DoD, DAOD 2008-6, 5002-10, 6001-1 and KR&O 19-36.
PdM SATCOM, in conjunction with the Army Test Command (ATC), concluded two weeks of developmental testing focused on Helicopter Sling Loading of the fourth Phoenix E-Model prototype at APG, MD, on 13 Oct 2020, to ensure that the complete system can be safely transported to a landing zone by any of the Army's helicopter variants. This phase of testing is one of multiple requirements to ensure the safety and transportability of vehicles and ancillary equipment. Over the past year, the 50th Expeditionary Signal Battalion-Enhanced (ESB-E) has been providing Soldier feedback on the Phoenix –E Model Prototypes to inform design and fielding decisions to modernize the Army’s legacy ESBs.
Phoenix ground satellite terminals enable ESBs to provide large division and corps headquarters with agile high-bandwidth network communications. They are used for high-throughput missions, which include Unmanned Aerial System feeds, video teleconferencing, and large numbers of subscribers and computers on the network. Like the legacy version, the Phoenix E-Model Prototype operates on four different satellite bands (military X/Ka and commercial C/Ku-bands), however, its dual-head capability enables the use of two antennas on two different frequency bands, or two different satellites, simultaneously. This reduces manning requirements for equivalent capability, doubles bandwidth throughput, and enhances multipath diversity and resiliency within the tactical network. In addition to operating on traditional Geosynchronous Earth Orbit (GEO) satellites, the systems also have the potential for growth to operate on existing Medium Earth Orbit (MEO) constellations. The legacy Phoenix is completely vehicle based, with a permanent vehicle-mounted antenna. Contrarily, if needed, the new E-Model enables Soldiers to remove the equipment from the vehicle in transit cases so they can (quickly and easily) deploy and operate the system (based on operational requirements), increasing the unit’s expeditionary nature, mobility and operational flexibility in support of a variety of missions around the world.
PM Tactical Network (Product Manager Network Modernization) concluded new equipment training on the high-throughput Terrestrial Line Of Sight (TRILOS) Radio to the 2nd Brigade Combat Team, 3rd Infantry Division, at Fort Stewart, Georgia, last week.
Packed in a few rapidly deployable transit cases, the expeditionary TRILOS Radio provides a significant reduction in size, weight and power (SWaP) compared to the legacy at-the-halt High Capacity Line Of Sight (HCLOS) Radio that is replacing, which needed two sheltered-vehicles and two large antennas to relay information.The TRILOS Radio will increase the robustness of the Army’s tactical network by providing a significant increase in bandwidth versus the HCLOS radio, along with increased range, with lower latency than satellite communications. It also increases multipath diversity in congested and contested environments.
Additionally, TRILOS is a dual channel radio as opposed to HCLOS which is a single channel radio. Thus the TRILOS Radio can execute two responsibilities at the same time -- it provide point-to-point communications, but unlike the HCLOS, it will also provide point-to-multipoint communications, enabling Soldiers to shoot multiple shots with one antenna mast, versus needing extra antennas to shoot to multiple terminals. With TRILOS fewer radios, Soldiers and supporting resources are needed.
U.S. Army photos by Amy Walker, PM Tactical Network/PEO C3T Public Affairs
PM Tactical Network (Product Manager Network Modernization) concluded new equipment training on the high-throughput Terrestrial Line Of Sight (TRILOS) Radio to the 2nd Brigade Combat Team, 3rd Infantry Division, at Fort Stewart, Georgia, last week.
Packed in a few rapidly deployable transit cases, the expeditionary TRILOS Radio provides a significant reduction in size, weight and power (SWaP) compared to the legacy at-the-halt High Capacity Line Of Sight (HCLOS) Radio that is replacing, which needed two sheltered-vehicles and two large antennas to relay information.The TRILOS Radio will increase the robustness of the Army’s tactical network by providing a significant increase in bandwidth versus the HCLOS radio, along with increased range, with lower latency than satellite communications. It also increases multipath diversity in congested and contested environments.
Additionally, TRILOS is a dual channel radio as opposed to HCLOS which is a single channel radio. Thus the TRILOS Radio can execute two responsibilities at the same time -- it provide point-to-point communications, but unlike the HCLOS, it will also provide point-to-multipoint communications, enabling Soldiers to shoot multiple shots with one antenna mast, versus needing extra antennas to shoot to multiple terminals. With TRILOS fewer radios, Soldiers and supporting resources are needed.
U.S. Army photos by Amy Walker, PM Tactical Network/PEO C3T Public Affairs
The Hotel & Casino In-Room is an open system that consists of a main commercial satellite installation terminated to a commercial/licensed Motorola SE/3000 MPEG-2 High Definition Encoder, purchased with a commercial broadcast license. The commercial Motorola Encoder writes the stream to a disc array, while at the same time, the stream is made available to the HP Integrity cluster through multipath i/o on a fiber Storage Area Network. The HP Cluster uses Wowza Media server to make this stream available to a client application. The HP Cluster uses ID Quantique SA for Network Encryption and RNG running Linux. The client application, using a custom linux build, provides ONDemand content (pay-per-view) and gambling applications.
The custom Linux build includes a custom fabricated chassis that provides a motherboard, credit card reader, bill validator, ticket printer and touch screen.
Through a Python application the gambling platform is able to communicate with the hardware through flash to the server side. The Class III gambling applications include multi-table games, slot/table games, and sportsbook. This open system combines to provide patrón's of a hotel chain with a casino managed in-room gambling and pay-per-view experience.
ISO declarations for the build, install and run include iTechLabs, NATA, IDQ, METAS/FDJP, CEA Grenoble/CESTI-LETI, BSI, and ANSSI.
Presentation included a private investor group in North and Central America, qualifying for private placement of $100M [USD].
For enquiries relating to speaking engagements, please email:
speaker@vegas.management
Welcome!
# # #
MAJOR GENERAL SIR TREVOR BISCOPE serves HM as the COMMANDER.
VEGAS™ is a trademark of Trevor Biscope. Complies with: DoD, DAOD 2008-6, 5002-10, 6001-1 and QR&O 19-36.
PM Tactical Network (Product Manager Network Modernization) concluded new equipment training on the high-throughput Terrestrial Line Of Sight (TRILOS) Radio to the 2nd Brigade Combat Team, 3rd Infantry Division, at Fort Stewart, Georgia, last week.
Packed in a few rapidly deployable transit cases, the expeditionary TRILOS Radio provides a significant reduction in size, weight and power (SWaP) compared to the legacy at-the-halt High Capacity Line Of Sight (HCLOS) Radio that is replacing, which needed two sheltered-vehicles and two large antennas to relay information.The TRILOS Radio will increase the robustness of the Army’s tactical network by providing a significant increase in bandwidth versus the HCLOS radio, along with increased range, with lower latency than satellite communications. It also increases multipath diversity in congested and contested environments.
Additionally, TRILOS is a dual channel radio as opposed to HCLOS which is a single channel radio. Thus the TRILOS Radio can execute two responsibilities at the same time -- it provide point-to-point communications, but unlike the HCLOS, it will also provide point-to-multipoint communications, enabling Soldiers to shoot multiple shots with one antenna mast, versus needing extra antennas to shoot to multiple terminals. With TRILOS fewer radios, Soldiers and supporting resources are needed.
U.S. Army photos by Amy Walker, PM Tactical Network/PEO C3T Public Affairs