This document proposes triple play and in-building cellular (IBC) solutions for residential and commercial buildings. It discusses:
1. Providing high-speed internet, TV, and phone services to tenants through a fiber optic network and set-top boxes in each room.
2. Installing an IBC system using a combination of active and passive distributed antenna systems to improve indoor cellular coverage from multiple operators.
3. The solutions would increase tenant services and satisfaction while reducing costs for building owners through a single provider.
The New Standard in Wireless Broadband
Wireless service providers and enterprises need reliable, high-quality broadband connectivity that can be rapidly deployed and expanded. The new ePMP platform provides stable coverage across large service areas and enhances your existing infrastructure.
Our radios support an impressive 200+ Mbps throughput to deliver bandwidth-intensive services such as VoIP (Voice over IP), video and data to end users across multiple vertical markets. The ePMP is optimized for outdoor applications, offering connectivity up to 13 miles with one efficient PTP and PMP integrated radio.
Using the 2.4 GHz and 5 GHz frequency spectrum, the new ePMP architecture covers major unlicensed global bands and is the most effective connectivity solution for the under- and unconnected around the world.
Introducing the Cambium Networks PMP 450 from WAVWAV Inc.
Introducing the Cambium Network's PMP 450 solution from WAV. The PMP 450 simultaneously talks to both FSK & OFDM SMs using Canopy MAC protocol, allowing more users and/or higher rate plans.
Go to www.wavonline.com to learn more!
For all of your Wireless needs... WAV's Got You Covered
This case study showcases Mistral’s capability in designing a flexible
and easy to upgrade VoIP Radio Gateway solution, interoperable with
all types of radio communications including conventional radios,
TETRA and TETRAPOL terminals. This IP Radio Gateway solution is
an exclusive and protected design for Mistral’s European customer,
Amper.
The New Standard in Wireless Broadband
Wireless service providers and enterprises need reliable, high-quality broadband connectivity that can be rapidly deployed and expanded. The new ePMP platform provides stable coverage across large service areas and enhances your existing infrastructure.
Our radios support an impressive 200+ Mbps throughput to deliver bandwidth-intensive services such as VoIP (Voice over IP), video and data to end users across multiple vertical markets. The ePMP is optimized for outdoor applications, offering connectivity up to 13 miles with one efficient PTP and PMP integrated radio.
Using the 2.4 GHz and 5 GHz frequency spectrum, the new ePMP architecture covers major unlicensed global bands and is the most effective connectivity solution for the under- and unconnected around the world.
Introducing the Cambium Networks PMP 450 from WAVWAV Inc.
Introducing the Cambium Network's PMP 450 solution from WAV. The PMP 450 simultaneously talks to both FSK & OFDM SMs using Canopy MAC protocol, allowing more users and/or higher rate plans.
Go to www.wavonline.com to learn more!
For all of your Wireless needs... WAV's Got You Covered
This case study showcases Mistral’s capability in designing a flexible
and easy to upgrade VoIP Radio Gateway solution, interoperable with
all types of radio communications including conventional radios,
TETRA and TETRAPOL terminals. This IP Radio Gateway solution is
an exclusive and protected design for Mistral’s European customer,
Amper.
Radio over IP (RoIP) is a technology that has emerged over the last 10 years and has provided a powerful and flexible mechanism for linking radios and dispatch consoles. RoIP has some inherent limitations and numerous technical challenges. This workshop will provide an overview of the technology, the key standards and some of the technical issues.
The workshop will cover on the following issues:
- The difference between RoIP and VoIP — how radio systems differ from phone systems
- Implementing one-to-one connections
- Implementing many-to-many connections
- Risk management: identifying network issues affecting RoIP/VoIP quality, maintenance and redundancy
- Design elements: building blocks; calculating network bandwidth requirements
The implications of RoIP for dispatch consoles will be also be discussed: how dispatch console to radio connections can be implemented with RoIP and how RoIP can be used to provide fault-tolerant dispatch architectures.
Finally, the workshop will look at the impact of new technologies such as IPv6, wireless broadband and the switch to digital radio on the RoIP landscape.
Paul Whitfield, Team Leader: Software Engineering, Omnitronics
We take pride in introducing ourselves to your esteemed organization. We are engaged in the business of providing Walkie Talkie and other Telecom and Security Solutions to our clients.
We are capable of giving all types of telecom spares with respect to Walkie Talkie and other Telecom and Security Products, viz: Telephone Handsets, Cords, Batteries, PTTs, Hand Held Metal Detector Chargers and Batteries, Door Frame Metal Detector Spares, etc. We do undertake maintenance contracts of various equipment with our staff of Technical Engineers and Technicians.
This session will provide a quick review of the methodology of early dispatch systems connected to radio, telephone and other resources via circuit switched interfaces such as 4WE&M, 2W analogue etc., and their restricted backhaul capabilities, leading on to the 'stand-alone' RoIP boxes that allowed 4W E&M to be converted to IP and recovered at the other end allowing backhaul via more flexible IP networks.
The next technology is dispatch systems with native IP connectivity allowing the most flexible and functional interfaces between the dispatch system and its connected resources. While some manufacturers equipment uses proprietary IP messaging, most prefer and use open standards such as P25 CSSI (console sub system interface), DFSI (digital fixed system interface) and ISSI (inter sub system interface) or the emerging DMR AIS which ensures that different vendors equipment can interoperate with each other via these interfaces. Open standards provide end users with greatly improved competitive choice and functional capability on these systems.
The session will explore examples of IP interfaces for voice dispatch systems and the functions supported, plus give a background on how these apply to many different technologies and can even be adapted for conventional radio applications:
The workshop will cover on the following issues:
- The difference between RoIP and VoIP - how radio systems differ from phone systems
- Implementing one-to-one connections
- Implementing many-to-many connection
- Risk management: Identifying network issues affecting RoIP/VoIP quality; maintenance; and redundancy
- Design elements :- building blocks; calculating network bandwidth requirements
The implications of RoIP for dispatch consoles will be also be discussed: how dispatch console to radio connections can be implemented with RoIP and how RoIP can be used to provide fault tolerant dispatch architectures.
Finally the workshop will look at the impact of new technologies such as IPv6, Wireless Broadband and the switch to Digital Radio on the RoIP landscape.
Les Scott, Manager, System Sales, Zetron
Choosing the correct antenna for the Mimosa point-to-multipoint (PTMP) solution is critical to delivering a high-performance wireless network. This webinar will review how to get the best ground coverage based on the subscriber density, distances, interference levels and terrain challenges; deployment options for density versus performance, and how to identify quality antennas.
Fixed Wireless Broadband Solutions for Utilities and Rural Electric CooperativesMimosa Networks
Until recently, municipal utilities and rural electric cooperatives that wanted to provide high-speed internet access to customers faced insurmountable economic challenges: bridging the last mile was just too expensive. You felt obstructed in your ability to help communities cross the digital divide. Now, however, the application of highly reliable wireless network technology can help.
Build a Fixed Wireless Network—Provide Value and ReliabilityMimosa Networks
5G fixed wireless is designed specifically to enable dense urban and suburban neighborhoods to attain speeds of 100-250 Mbps speeds, leading to gigabit service. New fixed wireless technologies are outperforming DSL and cable services at more competitive prices, with much quicker installation times. 5G fixed wireless can recreate the healthy conditions to once again stimulate broad growth, with ROI of only 6-12 months in many global markets.
M2M communication and the IP revolution in radio. A marriage made in the clou...Comms Connect
Ashwin Dinkar is a qualified senior bid engineer at Simoco Australasia. Having worked in the radio communication industry for over 5 years, Ashwin has driven development of systems engineering, pre-sales, network management and third-party integration components of the RF industry both within and outside Simoco. Based in Melbourne, Ashwin influences pre-sales efforts by evaluating Simoco's customer requirements and delivering customised solutions in public safety, transport and utilities sectors around the world.
Radio Frequency Front End (RFFE) MIPI core from Arasan Chip SystemsArasan Chip Systems
The RF Front-End Control Interface (RFFE) was developed to offer a common method for controlling RF front-end devices such as Power Amplifiers, Low-Noise Amplifiers (LNA), filters, switches, power management modules, antenna tuners and sensors that can be controlled using RFFE.
Radio over IP (RoIP) is a technology that has emerged over the last 10 years and has provided a powerful and flexible mechanism for linking radios and dispatch consoles. RoIP has some inherent limitations and numerous technical challenges. This workshop will provide an overview of the technology, the key standards and some of the technical issues.
The workshop will cover on the following issues:
- The difference between RoIP and VoIP — how radio systems differ from phone systems
- Implementing one-to-one connections
- Implementing many-to-many connections
- Risk management: identifying network issues affecting RoIP/VoIP quality, maintenance and redundancy
- Design elements: building blocks; calculating network bandwidth requirements
The implications of RoIP for dispatch consoles will be also be discussed: how dispatch console to radio connections can be implemented with RoIP and how RoIP can be used to provide fault-tolerant dispatch architectures.
Finally, the workshop will look at the impact of new technologies such as IPv6, wireless broadband and the switch to digital radio on the RoIP landscape.
Paul Whitfield, Team Leader: Software Engineering, Omnitronics
We take pride in introducing ourselves to your esteemed organization. We are engaged in the business of providing Walkie Talkie and other Telecom and Security Solutions to our clients.
We are capable of giving all types of telecom spares with respect to Walkie Talkie and other Telecom and Security Products, viz: Telephone Handsets, Cords, Batteries, PTTs, Hand Held Metal Detector Chargers and Batteries, Door Frame Metal Detector Spares, etc. We do undertake maintenance contracts of various equipment with our staff of Technical Engineers and Technicians.
This session will provide a quick review of the methodology of early dispatch systems connected to radio, telephone and other resources via circuit switched interfaces such as 4WE&M, 2W analogue etc., and their restricted backhaul capabilities, leading on to the 'stand-alone' RoIP boxes that allowed 4W E&M to be converted to IP and recovered at the other end allowing backhaul via more flexible IP networks.
The next technology is dispatch systems with native IP connectivity allowing the most flexible and functional interfaces between the dispatch system and its connected resources. While some manufacturers equipment uses proprietary IP messaging, most prefer and use open standards such as P25 CSSI (console sub system interface), DFSI (digital fixed system interface) and ISSI (inter sub system interface) or the emerging DMR AIS which ensures that different vendors equipment can interoperate with each other via these interfaces. Open standards provide end users with greatly improved competitive choice and functional capability on these systems.
The session will explore examples of IP interfaces for voice dispatch systems and the functions supported, plus give a background on how these apply to many different technologies and can even be adapted for conventional radio applications:
The workshop will cover on the following issues:
- The difference between RoIP and VoIP - how radio systems differ from phone systems
- Implementing one-to-one connections
- Implementing many-to-many connection
- Risk management: Identifying network issues affecting RoIP/VoIP quality; maintenance; and redundancy
- Design elements :- building blocks; calculating network bandwidth requirements
The implications of RoIP for dispatch consoles will be also be discussed: how dispatch console to radio connections can be implemented with RoIP and how RoIP can be used to provide fault tolerant dispatch architectures.
Finally the workshop will look at the impact of new technologies such as IPv6, Wireless Broadband and the switch to Digital Radio on the RoIP landscape.
Les Scott, Manager, System Sales, Zetron
Choosing the correct antenna for the Mimosa point-to-multipoint (PTMP) solution is critical to delivering a high-performance wireless network. This webinar will review how to get the best ground coverage based on the subscriber density, distances, interference levels and terrain challenges; deployment options for density versus performance, and how to identify quality antennas.
Fixed Wireless Broadband Solutions for Utilities and Rural Electric CooperativesMimosa Networks
Until recently, municipal utilities and rural electric cooperatives that wanted to provide high-speed internet access to customers faced insurmountable economic challenges: bridging the last mile was just too expensive. You felt obstructed in your ability to help communities cross the digital divide. Now, however, the application of highly reliable wireless network technology can help.
Build a Fixed Wireless Network—Provide Value and ReliabilityMimosa Networks
5G fixed wireless is designed specifically to enable dense urban and suburban neighborhoods to attain speeds of 100-250 Mbps speeds, leading to gigabit service. New fixed wireless technologies are outperforming DSL and cable services at more competitive prices, with much quicker installation times. 5G fixed wireless can recreate the healthy conditions to once again stimulate broad growth, with ROI of only 6-12 months in many global markets.
M2M communication and the IP revolution in radio. A marriage made in the clou...Comms Connect
Ashwin Dinkar is a qualified senior bid engineer at Simoco Australasia. Having worked in the radio communication industry for over 5 years, Ashwin has driven development of systems engineering, pre-sales, network management and third-party integration components of the RF industry both within and outside Simoco. Based in Melbourne, Ashwin influences pre-sales efforts by evaluating Simoco's customer requirements and delivering customised solutions in public safety, transport and utilities sectors around the world.
Radio Frequency Front End (RFFE) MIPI core from Arasan Chip SystemsArasan Chip Systems
The RF Front-End Control Interface (RFFE) was developed to offer a common method for controlling RF front-end devices such as Power Amplifiers, Low-Noise Amplifiers (LNA), filters, switches, power management modules, antenna tuners and sensors that can be controlled using RFFE.
Through participating Toyota forklift dealerships along with Toyota Material Handling USA. Career opportunities abound. Many dealerships are looking for qualified applicants. Apply today at toyotalifttech.com
El diputado Andrés Guzmán presentó un proyecto en la cámara baja para la creación de una universidad nacional con sede en la localidad de Cruz del Eje, Córdoba.
In the last academic year, 2012-13, we have trained more than 8000 project students. So far we have trained more than 35000 project students. We have been conducting seminars on the recent trends of technology in various colleges. Our research projects had participated in various National and International Conferences. Most of our projects were identified by the industries as suitable for their needs. Our number of projects were focused by media and awarded by various industrial & Government bodies. We have offered Projects to students of various Engineering Colleges in India as well as abroad.
Rapid - Next Generation Radio overview (PTToC)TR Hirecom
Overview of an Australian based and run Push to Talk Over Cellular solution, enabling businesses to communicate across a wide area, and bridging the gap from home workers to on the ground / on the road staff members.
This is intended for manufacturing, delivery companies, logistics, food supply, supply chain, security companies, and building maintenance providers.
Session Border Controllers presontation by Jonathan Richards - VON 2005
SBCs control real-time session traffic at the signaling, call-control, and packet layers as they cross a packet-to-packet network border between networks or between network segments
SBCs are critical to the deployment of VOIP networks because they address the inability of real-time session traffic to cross network address translation (NAT) device or firewall boundaries
Globtel AIR Fixed Wireless Access SolutionPavle Mikuz
Globtel AIR is a DOCSIS based Fixed Wireless solution, designed for rural, urban and suburban areas which are underserved. It delivers unprecented capacities in regard to users connected, throughputs and coverage range.
MULTI-STATE OR RECONFIGURABLE RADIO SOLUTIONSddslideshare99
How are radio chipsets developed to handle multiple modes?
Can a chipset be configured to handle two modes in the same band (such as WiFi and Bluetooth)?
What's the state of the art in reconfigurable radios?
What is a reasonable implementation of reconfigurable radios with the scenarios expected by operators? If multiple radios are operating simultaneously, how would reconfigurability help to save size, cost, and performance in the silicon?
3. Proposed Solution
GTI offer propose solution for the Residential and commercial entity on
your environment business :
1. Triple play
2. In Building Cellular System
6. Benefit
Benefit for Owner and
tenants
Increase the maximum service for tenant
and guests
One gate provider for all telco services
Interactive TV feature and customizable
Upgrade the prestige level building so it
can increase sales and occupancies
Develop value add service through the
same media
Low Cost Investment, all layer distribution
equipment provide by grahakomindo
7. Triple Play and IBC Project Experience
Triple Play
- Bumi Serpong Damai (BSD) Resident – PT. Duta Pertiwi
- Cervino Village Apartment + Office
- Puri Park View Apartment + Office
- Sunter Park View Apartment + Office
- Sunter Icon Apartment + Office
IBC
- Permata Kuningan Building
- Manhattan Hotel
- Merlyn Hotel
- BSD Marketing Office
8. Featured and Technology
Triple Play Solution
Interactive between room and servers
Broadband internet
TV +/- 60 channel
Welcome Page
Information facilities
Added feature customizable
etc
9. Featured and Technology
Triple Play Solution
High bandwidth with technology supported :
• GPON FTTH Appilication
• Access last mile using indoor terminal (mini ONT)
• Standard ITU-T G.984 1/2/3/4
• Ethernet carried service
• Reliable security protection
- downstream data protection
- anti mac spooling
- IP ACL control
- packet restriction
- precise location
Customized feature menu
10. Customizable Digital Features Included
Triple Play Solution
Welcome message or video
with guest name
Main Menu
Language Sub Title
Customizable Main Menu
Video on Demand
Broadcast TV
News Feed
Room Messaging
World Time & Weather
Internet Radio
Hotel Information
Room Bill
Mini bar Posting
(house keeper only)
Online Chat
Help – Quick Guide
11. Topology & Network Design Concept
Triple Play Solution
Basement 3
Basement 2
Basement 1
IIX
Int.
Internet
@ Equinix Singapore
Sealed
Closures
FO Handhold/
Demarcation Point
OSP Fiber Cable
Head End
OTB
PoP GTI BBU
Manageable
Switch/L2
Fiber
Management
eth
SFU
Existing GTI
Network
ODF
SC-FC
Patch cored
Video Voice Data
12. Topology & Network Design Concept
Triple Play Solution
Home Gateway
Tenant
IPTV/ VoD
Telp / VoIP
STB
Broadband
Internet
per room
Per floor
2nd floor
3rd floor
4th floor
Broadband Remote
Access Radius Server
IP Core
IPTV &
VoDServer
Middle
ware
SoftSwitc
h
Internet
NMS & NOC Center
Distribution
Switch
Head End Room
Xth next floor
VideoVoice DataVideoVoice Data
13. Implementation Preview
Triple Play Solution
Implementation Data center (head end) at Bumi
Serpong Damai (BSD) resident
- clean and neat
- efficient room for central
service provider convergence
(head end room)
14. Implementation Preview
Triple Play Solution
Installation distribution switch and optical terminal
Installation last mile per room
- placement of the device in a
closed rack
- STB and I/O Customers
15. Implementation Preview
Triple Play Solution
NOC & TS room deployment
- 24 hours online per weeks/years
- integrated TS monitoring for
3play , IBS and others
16. Feature & Technology
IBC ( In Building Cellular ) Solution
Optional or combination of active and passive DAS
Multi operator capability with multiband support for
GSM900/1800, CDMA800/1900, WCDMA and
up to 2,6 Ghz
Technical Effectiveness and retain manageability and
realibility of DAS System ( passive and active)
17. Feature & Technology
IBC ( In Building Cellular ) Solution
High Power, low noise, multi carrier Power Amp
- high downlink power (>60dBc)
- Low noise amp to improve uplink sensitivity
Master unit support up to 4 quod-bands over single
core fiber optic cable
- more effective use of fiber-optic infrastructure
- manageable remote for configure and monitoring
Remote unit support 4-bands in a single box
- up to 46dBm downlink power per band, so it can less clutter,
simplify and lower CAPEX
- adjustable for attenuation and gain, hence need flexibility to
achieve target radio coverage across band
18. Topology & Network Design Concept
IBC ( In Building Cellular ) Solution
Operator A
Operator B
Operator C
Operator D
Master Unit Remote
Radio Unit
MCPA
Booster
Point of Interface/
Multi band Combiner
Operator BTS
ACTIVE-DAS Passive-DAS
RF-Coax Cable
Fiber Optic
Omni Antenna
19. Topology & Network Design Concept
(Active Mode)
IBC ( In Building Cellular ) Solution
Intern
et
Access Point
GSM 1 Operator
GSM XX Operator
CDMA 1 Operator
CDMA XX Operator
3G Operator
Master Unit
P
O
I
NMS
Remote Radio
Unit
Active Booster Omni Antenna
Passive DASActive DAS
Splitter tap
Master Unit(MU) deliver RF signals over
long distances to remote radio unit (RU)
via FO
Multi band Combiner (point of interface)
combines multiple operators and multiple
bands into a single RF system
The NMS Monitors and manage status and
parameter e.g. amplifier gain, operating
and environmental status, etc.
Remote radio unit amplifies RF signals to
the Passive DAS
20. Topology & Network Design Concept
(Passive Mode)
IBC ( In Building Cellular ) Solution
Remote Radio
Unit
Passive DAS
Omni Antenna
Active Booster
Splitter tap & components
Installation inside a riser
- Forms cascading network
topology to distribute RF
signals to the intended
areas of coverage
- Fully passive which does
not require electrical power
and minimal maintenance
- Signal loss and uplink
dictated by number of
branches and antenna
- Each MCPA Booster up to 40W (46dBm) downlink per
band for better flexibility in sectorisation and power
planning
- Low noise amplification improves uplink sensitivity
(<4dB)
- Simple and neat installation in riser for ease of
maintenance
21. Hardware Installation preview
IBC ( In Building Cellular ) Solution
Installation at Permata Kuningan Building and
Manhattan Hotel
- clean
- single box installation in
BTS room or riser
22. Hardware Installation preview
IBC ( In Building Cellular ) Solution
Installation Combiner at Permata Kuningan Building and
Manhattan Hotel
Multi operator Combiner
installation, GSM 900/1800, CDMA 800/1900 and
WCDMA/3G
23. Initial Step for proposed solution
Q&A
- site and resident visit survey
Prepare Initial system Design
- head end room and riser location
- number of rooms and spaces per floor
- floor plans with BTS and riser location
- radio bands and frequency assignment
- coverage area and capacity (Tx/Rx) planning
- budgetary proposal
Project Planning
- acceptance for initial system design
- detailed system design
- prioritization and implementation planning