This document provides an overview of On-Ramp Wireless, Inc., including information about its Ultra-Link ProcessingTM technology for long-range wireless connectivity. The technology enables connectivity for billions of unconnected devices over distances up to 40 miles with high reliability, low power consumption, and strong security. On-Ramp Wireless aims to use its technology for applications in utilities like electricity metering, street light monitoring, and solar/wind farm monitoring. It has received a $2 million Department of Energy contract to develop wireless grid sensors and fault indicators.
LoRa WAN - Connecting the Internet of ThingsKent Plummer
LoRa WAN is an emerging Long Range wireless WAN technology that can be used to connect inexpensive, low power devices to a network for the purposes of monitoring, data acquisition and control.
MIMO 2.4Ghz 300Mbps system &P Wi Max Wisp Wi Fi Wi Max Mesh Systems 2010...Hotware International Inc.
Hotware builds long-range wireless solutions for data, voice and TV. With a decade of experience and development in the long-rang cordless phone industry, Hotware International is a specialist in long-range wireless communication solutions and applications.
Hotware Total Solution Division completed its full offering and was released in 2008 and presently have several National ISP development projects under deployment through the world , These include ISP WiFi with roaming, VOIP and IPTV delivery with on site training and project management support.
Sigfox is a connectivity service, dedicated to the IoT ... And focused on very small messages, up to 12 bytes.
How a few bytes can lead to Big Data ?
Presentation during the IoT & Big Data Meetup :http://www.meetup.com/fr-FR/Internet-of-Things-Thinkers-Meetup/events/229862142/
LoRa WAN - Connecting the Internet of ThingsKent Plummer
LoRa WAN is an emerging Long Range wireless WAN technology that can be used to connect inexpensive, low power devices to a network for the purposes of monitoring, data acquisition and control.
MIMO 2.4Ghz 300Mbps system &P Wi Max Wisp Wi Fi Wi Max Mesh Systems 2010...Hotware International Inc.
Hotware builds long-range wireless solutions for data, voice and TV. With a decade of experience and development in the long-rang cordless phone industry, Hotware International is a specialist in long-range wireless communication solutions and applications.
Hotware Total Solution Division completed its full offering and was released in 2008 and presently have several National ISP development projects under deployment through the world , These include ISP WiFi with roaming, VOIP and IPTV delivery with on site training and project management support.
Sigfox is a connectivity service, dedicated to the IoT ... And focused on very small messages, up to 12 bytes.
How a few bytes can lead to Big Data ?
Presentation during the IoT & Big Data Meetup :http://www.meetup.com/fr-FR/Internet-of-Things-Thinkers-Meetup/events/229862142/
Industry 4.0 is all about connectivity, monitoring, logging, analyze and taking decision based on the captured information. Using Open Source Hardware have lot of advantage for your business. In this presentation OSHW solutions for Industry 4.0 are discussed.
New Tektronix and Keithley test and measurement products - TSG4100A vector signal generator, RSA306 spectrum analyzer, DMM7510 graphical sampling meter, 2280S power supply
OFC 2018 - Market Watch III - Challenges and Solutions for 400G (Microsoft)Mark Filer
Panel Description:
Data center switches are scaling from 3.2Tb/s to 6.4, 12.8Tb/s. 25 Tb/s switching chips must be on the horizon. A new generation of 400G front panel pluggable optical transceivers are emerging to support the increased bandwidth.
Increased electrical speeds of 56 and 64 GBaud and complex signaling and constellations place increased constraints on the packaging and design of optical components. What are the pros and cons of the various pluggable options you’ve evaluated and which direction do you expect to take?
How should both client and line side optics be accommodated in the same pluggable format?
Is there a reason to keep two large and small form factors for client optics to accommodate longer reach applications? Example, CFP2 and QSFP28 at 100G or OSFP and QSFP DD at 400G?
Will coherent dominate the 80-100km transmission market long term or are there applications for direct detect?
How important is backward compatibility for QSFP28 DD and do you plan to use it?
Which applications require pluggables vs. on-board optics? When do we reach the end of the road for front panel pluggables?
What are the challenges with COBO and embedded optics? Can the new 400G generation of pluggables, like QSFP-DD and OSFP scale from 400G to 1.6 Tb/s?
Is silicon photonics really meeting the speed-density-cost challenges of hyperscale data centers?
How is the optical networking value and supply chain changing?
LoRa technology is a wireless transmission technology created for the Internet of Things.
Nowadays, information technology is highly developed, and after the Internet, the Internet of Things (IoT) is attracting widespread attention in society at a rapid pace. With the rapid rise of the Internet of Things and the increasing number of applications, wireless communication protocols such as Wi-Fi, ZigBee, Bluetooth, etc., make it possible to have a wealth of options when building the Internet of Things.
Low power consumption and wide area coverage are two important factors that build LPWA technology. SigFox is the operator of a cellular network dedicated to low throughput communication for connected devices. Company’s patented UNB technology achieves a broad scale connection to M2M/IoT devices over large distances. Low bit rate transmissions allows greater autonomy and saving energy at end devices.
Our mission is to radically change the way people, products and property are connected by developing game-changing technology and applying it with smarter thinking. We believe in the power and potential of renewable energy.
Er vi alle vindere når ny teknologi, -arbejdsformer og innovation udfordrer d...Kim Escherich
From the Børsen IT-Value conference in the PPP-track. Covers the difficult task of making successfull projects in the greyzone between public and private
Industry 4.0 is all about connectivity, monitoring, logging, analyze and taking decision based on the captured information. Using Open Source Hardware have lot of advantage for your business. In this presentation OSHW solutions for Industry 4.0 are discussed.
New Tektronix and Keithley test and measurement products - TSG4100A vector signal generator, RSA306 spectrum analyzer, DMM7510 graphical sampling meter, 2280S power supply
OFC 2018 - Market Watch III - Challenges and Solutions for 400G (Microsoft)Mark Filer
Panel Description:
Data center switches are scaling from 3.2Tb/s to 6.4, 12.8Tb/s. 25 Tb/s switching chips must be on the horizon. A new generation of 400G front panel pluggable optical transceivers are emerging to support the increased bandwidth.
Increased electrical speeds of 56 and 64 GBaud and complex signaling and constellations place increased constraints on the packaging and design of optical components. What are the pros and cons of the various pluggable options you’ve evaluated and which direction do you expect to take?
How should both client and line side optics be accommodated in the same pluggable format?
Is there a reason to keep two large and small form factors for client optics to accommodate longer reach applications? Example, CFP2 and QSFP28 at 100G or OSFP and QSFP DD at 400G?
Will coherent dominate the 80-100km transmission market long term or are there applications for direct detect?
How important is backward compatibility for QSFP28 DD and do you plan to use it?
Which applications require pluggables vs. on-board optics? When do we reach the end of the road for front panel pluggables?
What are the challenges with COBO and embedded optics? Can the new 400G generation of pluggables, like QSFP-DD and OSFP scale from 400G to 1.6 Tb/s?
Is silicon photonics really meeting the speed-density-cost challenges of hyperscale data centers?
How is the optical networking value and supply chain changing?
LoRa technology is a wireless transmission technology created for the Internet of Things.
Nowadays, information technology is highly developed, and after the Internet, the Internet of Things (IoT) is attracting widespread attention in society at a rapid pace. With the rapid rise of the Internet of Things and the increasing number of applications, wireless communication protocols such as Wi-Fi, ZigBee, Bluetooth, etc., make it possible to have a wealth of options when building the Internet of Things.
Low power consumption and wide area coverage are two important factors that build LPWA technology. SigFox is the operator of a cellular network dedicated to low throughput communication for connected devices. Company’s patented UNB technology achieves a broad scale connection to M2M/IoT devices over large distances. Low bit rate transmissions allows greater autonomy and saving energy at end devices.
Our mission is to radically change the way people, products and property are connected by developing game-changing technology and applying it with smarter thinking. We believe in the power and potential of renewable energy.
Er vi alle vindere når ny teknologi, -arbejdsformer og innovation udfordrer d...Kim Escherich
From the Børsen IT-Value conference in the PPP-track. Covers the difficult task of making successfull projects in the greyzone between public and private
From the conference "Fremtidens Medarbejder" in Copenhagen June 3rd. Covers IBM's use of internal social business technologies and how that has influenced our way of working, culture etc.
From Service Design to Service Transformation - SDN Global 2016Jess McMullin
Customer journeys, experience maps, and service blueprints aren't enough to drive lasting organizational change and transformation. The service architecture framework shows the levels you need to work across in order to deliver deep change and transformation within the organization.
Talk from the Service Design Network Global conference in Amsterdam, Netherlands, Oct 27, 2016.
Hvad sker der når digitalisering bliver ekstrem. Når kunstig intelligens, kognitive systemer og IBM Watson begynder at spise sig ind på jobmarkedet. Hvad sker der og hvad gør vi ved det? Afholdt på VidenDanmark kickoff 8. september 2016.
From the conference Future Tech in Insurance at Forsikringsakademiet, nov 15 2016. Defining cognitive and how that is relevant for insurance companies.
From IBM Business Connect 2016 in Copenhagen. Covers definition of cognitive buildings and background on the global partnership between ISS and IBM on IoT,cognitive buildings, facility management and workforce optimization.
Developing a Roadmap for Digital TransformationJohn Sinke
Digitally mature companies out-perform their peers in innovation, agility and responsiveness to customers. “Digirati” also enjoy advantages in efficiency and effectiveness in product delivery, marketing, e-commerce, sales and customer service. More importantly, companies that achieve Digital Excellence are 26% more profitable (source: Capgemini Consulting and MIT Centre for Digital Business).
However, building a Roadmap for Digital Transformation requires not only successful collaboration between the CMO and the CIO, it also demands a strong customer-focused orientation and digital culture. During this presentation, John Sinke will share insights from leading marketers and his personal experience of turning Resorts World Sentosa into a “digital business”.
NEDAS Boston Workshop Presentations - July 15, 2015Ilissa Miller
Presentations by PCTel presented by Marc Nguessan, SeeWave Product Manager titled "Interference Hunting: Tools and Service Solutions." Solutelia presented by Nikhil Gogate, Sr. and Luis Najera titled "RF Data Collection & Remote Control/Monitoring using WINd Solution." John Holmblad of the US Senate in Cybersecurity and Professor at the University of Maryland at Maryland University College titled "Achieving confidence in Cyberspace. It's all about Risk Management." and SOLiD presented by Dennis Rigney titled "The Evolution of DAS Ownership."
At a time when new network topologies are developed due to the advent of new operators or users of long-haul optical transmission infrastructure, longer spans and longer all-optical data paths are becoming critical capabilities. This presentation details how advanced optical Raman amplification enables these new network designs and ultra-long-haul transmission of 16QAM/200G carriers as well. This presentation was delivered at WDM & Next Generation Optical Networking EMEA 2015 conference (22-25 June 2015 – Nice, France).
Broad Sky Networks - 2019 October Webinar 3G is Sunsetting (3) finalMaureen Donovan
3G Technology is being sunset by the carriers, 4G and 5G technology is the path but what is the best transition for your business and clients? Tune in to find out what these new technologies offer, challenges with deployment and what is best for the next step.
Thorne & Derrick UK are official distributors of the SebaKMT range of LV-HV Cable Fault Location instruments including cable sheath testers and cable sheath fault prelocation and pinpointing units. SebaKMT are the leading manufacturer of measurement equipment for the diagnosis of cable networks and for cable fault location. Cable faults are the ''natural enemy'' of reliability. The innovative SebaKMT products make it possible to quickly localise low and high voltage cable faults without causing damage to fault-free parts of the cable.
Webinar NETGEAR - Linee guida per il disegno di una rete wireless a elevate p...Netgear Italia
Alcuni suggerimenti per effettuare:
- Analisi preliminare
- Sopralluogo
- Pianificazione della rete
- Proposta della soluzione consigliata
Some advices to run:
- Preliminary Study
- Surveys
- Network Design
- Solution proposal
SatCom Protection in Mission Critical Oil & Gas - Edited
On Ramp For Comm Nexus
1. The
informa,on
contained
herein
is
proprietary
and
strictly
confiden,al.
It
is
intended
for
use
only
by
the
recipient
then
only
to
the
extent
necessary
to
consider
a
business
rela,onship
with
or
an
investment
in
On-‐Ramp
Wireless,
Inc.,
and
for
no
other
purpose.
The
recipient
is
hereby
no,fied
that
any
dissemina,on,
distribu,on,
reproduc,on
or
use
of
this
Company
Presenta,on,
in
whole
or
in
part,
is
strictly
prohibited
without
the
prior
wriCen
consent
of
On-‐Ramp
Wireless,
Inc.
Ultra-‐Link
Processing™
in
Ac,on
Breakthrough
Wireless
Signal
Processing
and
Wide
Area
Device/Sensor
Connec,vity
2. On-‐Ramp
Wireless,
Inc.
o Founded
April
2008
o Headquarters
in
San
Diego,
CA
o Offices
in
Singapore
o 65
employees
and
growing
3. Billions
of
Devices
Remain
Unconnected
Technology
Gap
Filled
by
Ultra-‐Link
Processing™
ISM
and
legacy
industrial
(WiFi,
Zigbee,
900MHZ)
Cellular/LTE
and
WiMax
4.
5. Wireless
Applica,ons
in
the
U,lity
Space
Characteris*cs:
• Lower
data
rate
per
node
• Highly
distributed
• High
reliability
• BaCery
opera,on
• Transmission
line
monitoring
• Video
surveillance
• Higher
data
rate
• Latency
intolerant
• High
reliability
• Powered
• Higher
data
rate
• Latency
intolerant
• High
reliability
• Powered
One
billion
monitoring
points
in
the
U.S.
Hundreds
of
thousands
of
endpoints
in
U.S.
Hundreds
of
thousands
of
endpoints
in
U.S.
Applica*ons:
• Electric
AMI
• Energy
management
• Gas
and
Water
metering
• Fault
circuit
indicators
• Sub-‐sta,on
and
transformer
monitoring
• HVAC
control
and
monitoring
• Fire
Sensor
• Remote
Monitoring
6. Ultra-‐Link
Processing™
Physical
Layer
-‐142
dBm
Receive
Sensi,vity
Air
Interface
Random
Phase
Mul,ple
Access™
2.4
GHz
Frequency
–
1
MHz
Occupied
Bandwidth
–
Scalable
to
Tens
of
Thousands
of
Nodes
Coverage
(>40
miles
Line
of
Sight)
Capacity
(25-‐40×
advantage)
Power
ConsumpUon
(up
to
20
years)
Robustness
(interference
rejecUon)
Security
(built-‐in
features)
System
Cost
(>10×
advantage)
7. Link
Budget
is
the
Key!
Link
budget
is
the
measure
of
a
wireless
system’s
ability
to
overcome
obstacles
(e.g.,
distance,
interference)
to
close
a
link
Ultra-‐Link
Processing™
link
budget
142
dBm
+
20
dBm
(power
output)
+
10
dB
of
antenna
gain
=
172
dB
900
MHz
FHSS
link
budget
102
dBm
+
30
dBm
(power
output)
+
10
dB
of
antenna
gain
=
142
dB
Link
budget
=
Receive
SensiUvity
+
Transmit
Power
+
Antenna
Gains
Vs.
9. Service
Area
Network
Back
Office
On-‐Ramp
Packet
Data
Network
Smart
Transformer
Smart
Meter
Condi,on
monitoring
Fault
Circuit
Indicator
Pump
condi,on
monitor
Pipeline
monitor
Backhaul
Termina,on
Opera,ons
Dashboard
Cri,cal
Infrastructure
Monitoring
App
(CIMA)
Example:
Meter
Data
Management
On-‐Ramp
ULP
Gateway
ULP
Network
Management
System
NMS
View
Secure
IP
Backhaul
ULP
Link
ULP
Access
Point
ULP
Node
3rd
Party
NMS
(SNMPv3)
• SMTP
• SOAP/Web
services
• DNP-‐3/IP
Leak
detec,on
sensor
10.
Palomar
Mt.
Whitney
Black
Mt.
Mt.
Woodson
On-‐Ramp
San
Diego
Test
Bed
ULP
Network
11. Schweitzer
Wireless
Grid
Sensor
o Embedded
On-‐Ramp
Wireless
eNode
o Voltage
and
Current
o Ambient
Temperature
o BaCery
Operated
(expected
15
year
baCery
life)
o Next
phase:
Below
ground
coverage
12. U,lity
Op,miza,on
o Data
collec,on
for
predic,ve
maintenance
o Data
mining
for
grid
efficiency
op,miza,on
o Grid
planning
for
renewables
integra,on
and
EV
o Immediate
fault
indica,on
13.
14. An
Ultra-‐Link
Processing™
Network
Enables
…
o Electricity/Gas/Water
metering
o Street
Light
Monitoring
and
Automa,on
o Transformer
and
substa,on
automa,on
o Solar
and
Wind
farm
monitoring,
including
variance
in
grid
load
o HVAC
monitoring
o Weather
monitoring
o …
15. DOE
Contract
Award
o On-‐Ramp
Wireless,
Inc.
(San
Diego,
CA)
will
develop
and
demonstrate
a
wireless
grid
sensor
and
faulted
circuit
indicator
capable
of
monitoring
underground
and
other
hard-‐to-‐reach
distribu,on
circuit
loca,ons.
o Project:
$2.0M
o Demonstra,ons
with:
– SDG&E
– Southern
California
Edison
16.
17. For
more
info
…
Jonas
N
Olsen
VP
of
Strategic
Marke,ng
jonas.olsen@onrampwireless.com
Check
out
our
introductory
videos
at
www.onrampwireless.com
Thank
you!