insyab bodycam 2016 v2.0
TRANSCRIPT
Product Overview
Wireless Ad Hoc Connectivity for Body-Worn Cameras
Ahmed Bader, [email protected]
+96 654 531 6774 | +96 279 555 8008
©2016
Outline
• End-users aspirations
• Latent pains
• Shortfalls of over-the-counter wireless
• Overview of Insyab’s solution
• About Insyab
Insyab Wireless | © 20162
end-user aspirations
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In mission-critical operations, team members need to exchange information with each other in real-time.
This is essential to make better educated decisions in the face of unfolding circumstances.
However, the only means of communications available to them today is limited to voice only.
“The incident commander is left blind not knowing what the conditions are
like inside .... although we do have voice communications it is very difficult to pick up what
people are saying”
https://vimeo.com/157596898
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Insyab Wireless | © 2016
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Incident commander receives live video feeds from body-
worn cameras.
Casualty rates: 10%↓
it is time for the next-generation vision-based “walkie-talkie”
Time-to-complete a mission: 20%↓
Virtues of real-time vision-based streaming
Insyab Wireless | © 2016
Latent pains
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critical communications gear maker:
“transmission of live video feeds from front-end personnel requires a
lot of bandwidth with zero-perceived latency.
We've been trying different wireless solutions, but none have truly fulfilled our needs thus far!”
Insyab Wireless | © 2016
Shortcomings of LTE
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A study conducted by Insyabfor a major GCC telecom operator demonstrated clearly an LTE uplink capacity deficit during emergencies.
This makes it difficult to stream real-time video from front-end personnel, even with preemptive access privileges.
Insyab Wireless | © 2016
Shortcomings of Wi-Fi
• Prone to interference from other systems– 2.4 GHz is already crowded– 5 GHz soon to be contaminated with the arrival
of LTE-Unlicensed
• Does not scale well– Many repeaters and infrastructure access points
required to cover large areas– Wi-Fi mesh supports only few hops
• Does not support mobility very well– The underlying physical layer (PHY) was not built
with mobility in mind– Mobility-throughput tradeoff tends to be quite
painful
• Wi-Fi modems are relatively power hungry• Limited to ISM bands while many clients
mandate support for other security and military bands
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The introduction of LTE-U (aka LAA) is expected to increase the “interference temperature” seen by Wi-Fi systems, causing heated debated between 3GPP and IEEE 802.11 communities.
Insyab Wireless | © 20168
Insyab has developed a novel mobile ad hoc networking (MANET) technology catered for real-time video streaming …
Technology
Insyab Wireless | © 20169
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• Patent-pending technology • Based on “autonomous
cooperative geographical routing”• Empowered by localized routing
decisions• Incorporates a novel OFDMA-
based PHY preamble structure
Technology Features• Highly resilient to interference• Supports extreme mobility • Up to 3X higher network
throughput • Highly scalable (100+ nodes)• Ultra-low end-to-end latency (<5
ms)• RF parameters configurable over-
the-air
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Severe interference
Moderate interference
Low interference
performance benchmarking
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Differentiated normalized performance. Validated in the field.
• “body-cam” market is going to be worth USD 1B in 2017
• Strong growth up to USD 8B in 2021• real-time wireless market estimated to be
USD 800M by 2021• The wireless hardware market only is
expected to be USD 480M
A booming market
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• End-user market segments:– Public safety– Paramedics – Tactical operations – Police and law enforcement – Energy, exploration & production
Body-worn cameras ($8B)
Real-time ($800M)
Wireless H/W ($480M)
Insyab Wireless | © 2016
Insyab designs and builds customized wireless solutions for industrial, mission-
critical, and cyber-physical systems.
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Software IP
Evaluation board• Software defined radio (SDR) empowered
by Insyab’s Wireless Design Platform• Full-duplex support • Up to 23 Mbps host-to-host • Wide spectrum band (0.3 – 3.8 GHz)
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Hardware reference design• SmartFusion 2.0 SoC FPGA • Maxim 5 GHz front-end with up to 40
MHz channelization• Full-duplex support • Up to 500-meter range at a maximum
throughput of 60 Mbps• Low complexity design (<50 KLE)• 7X more energy-efficient compared to
standards-based gear.• Integrated support for a 10-element
circular antenna array. • (expected 1Q2017)
Insyab Wireless | © 2016
Code space dedicated for user-
defined applications
autonomous geo-routing protocol
Firmware & API’s
Hardware platform
what we offer
Management Team
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Slim is a world-renowned scholar in wireless communications with nearly 1,000 publications in this field. Slim also currently holds a professor position at King Abdullah University of Science & Technology (KAUST). He earned his Ph.D. and M.S. both in Electrical Engineering from Caltech and Georgia Tech respectively.
Slim Alouini – Co-Founder
Slim is a veteran in the wireless industry. Having spent nearly 20 years in Silicon Valley, Slim offers indispensable advice to Insyab's development. Most recently, he was the COO of Novatel Wireless. Slim holds a Ph.D. in Electrical Engineering from Georgia Tech.
Slim Souissi - Advisor
Zaid Masri - AdvisorZaid advises Insyab on business development and commercial matters. He comes from an investment and banking background but is also an entrepreneur himself. He earned his B.S. in Electrical Engineering from The American University of Beirut (AUB) and Master degree in Finance from the University of Oxford.
Ahmed Bader - Managing Director
Ahmed co-founded Insyab Wireless with Slim Alouini in 2015 with the prime purpose of filling obvious gaps in the wireless market. Ahmed brings along more than 14 years of experience in the wireless industry. He earned his Ph.D. in Electrical Engineering from Télécom ParisTech, and M.S. in Electrical & Computer Engineering from The Ohio State University.
Insyab Wireless | © 2016
Wireless technology that matters
PO Box 1961 Deira Dubai – UAE
www.Insyab-Wireless.com
Insyab Wireless | © 201616