Travelping

WiFi Roaming at Beijing Olympics 2008

Rachel Hill — Wed, 06 Mar 2013 12:36:43 +0000

Travelping developed the WiFi roaming integration for the large scale WiFi networks at the Olympic Games in Beijing. This allowed international visitors to the Olympic games to be access WiFi services using their home credentials while in Bejing. Travelping worked with the US-based companies Boingo and iPass to implement this solution.

The Travelping Open Subscriber System (TPOSS) was deployed as the core service to connect the local WiFi networks with the networks of the global WiFi roaming operators. This was done through the development and integration of a number of RADIUS applications. The Travelping solution brings together the different WiFi networks of China Mobile and China Netcom into one WiFi footprint which could be used by the international users.

The Olympic Games 2008 in Bejing was an exciting experience for the Travelping team. Three weeks before the official start of the games, British Telecom asked for help in deploying a RADIUS-based WiFi roaming integration. Travelping worked with China Mobile, China Netcom and other local operators to integrate the different WiFi networks into the roaming networks of iPass and Boingo. The quick integration was possible because of the long standing relationship between Travelping and roaming aggregators iPass and Boingo. Running a Travelping hosted roaming hub pays off.

Holger Winkelmann, CEO of Travelping GmbH

Travelping products used in this project:

Session Control Gateway (SCG)
TPOSS Open Subscriber Server
TPOSS Policy Control Server (PCS)
TPOSS customized RADIUS Network Integration Layer (NIL)

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CPE Management for DSL Network

hwinkel — Fri, 01 Mar 2013 18:43:39 +0000

As part of a local educational program, the authorities of Bradford and Stoke carried out a programme to provide subsidised broadband access to about 15,000 rural residents. As part of a local-loop unbundling (LLU) project, Travelping was responsible for planning and development of the broadband network architecture.

Travelping delivered multiple Session Control Gateways (SCG) as Broadband Remote Access Servers (BRAS) to control the broadband sessions of subscribers. A Travelping Open Subscriber Server (TPOSS) was deployed to manage the user and device policies. To reduce deployment and support costs, a zero-touch installation mechanism for the Customer Premise Equipment (CPE) was required.

The system was further enhanced with line- and device-based authentication to avoid the management and handling of subscriber-specific credentials. This was achieved through a smart integration of the existing Multi Service Access Nodes (MSANs) and aggregation network equipment.

All CPE were equipped with a TPLINO based firmware stack to establish the DHCP based Internet connection and provide services in the customer LAN. The devices were automatically monitored and updated through the Travelping TR-069 CPE management system.

Travelping products used in this project:

TPLINO embedded Linux
TPOSS TR-069 Receiver
Session Control Gateways (SCG)
TPOSS Policy Control Server (PCS)
TPOSS Converged Charging Server (CCS)
TPOSS User Data Repository (UDR)

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WiFi Roaming at Beijing Olympics 2008

hwinkel — Fri, 01 Mar 2013 18:42:28 +0000

Holger Winkelmann, CEO of Travelping GmbH

Travelping products used in this project:

Session Control Gateway (SCG)
TPOSS Open Subscriber Server
TPOSS Policy Control Server (PCS)
TPOSS customized RADIUS Network Integration Layer (NIL)

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Michronet M2M Network

Rachel Hill — Fri, 01 Mar 2013 18:40:54 +0000

Imagine a world where everything just flows. Where machines, cars , appliances, meters or wind turbines communicate seamlessly. Machine to Machine (M2M) communication is building a network of connected devices. This will form a new network called the Internet of Things (IoT). Travelping is actively developing solutions for this new market.

M2M communication has many specific requirements towards the telecommunication networks. The whole industry is working on defining new standards for overarching M2M solutions. Travelping has chosen the state of the art OpenFlow technology to build Michronet, a global M2M platform.

OpenFlow is a core technology of so-called Software Defined Networking (SDN). This will change the way networks are built in the future. It enables network operators to quickly change and deploy network behavior. It also makes sure new standards and protocols can be easily implemented for already deployed equipment.

Travelping has delivered the world’s first OpenFlow and SDN based global M2M service network with a unique feature set. Michronet spans a fine granular switched M2M network capable of scaling up to millions of devices. It integrates different access and transport technologies including 2G, 3G and 4G mobile data, satellite communication, and legacy VPN services over DSL and Fiber networks.

Travelping has delivered a turn-key solution for our M2M network needs. It convinced us to use their unique SDN approach to deliver the services. Today we are able to integrate data services from Vodafone, EverythingEverywhere, Iridium and Inmarsat into one global M2M offering. We are always excited about the capabilities Michronet can deliver. We can easily adapt to new requirements of our customers.

Tony Martin, Technical Director of Cellubi.co.uk

Travelping products used in this project:

Session Control Gateways (SCG)
TPOSS Policy Control Server (PCS)
TPOSS Converged Charging Server (CCS)
TPOSS User Data Repository (UDR)
Travelping OpenFlow Controller

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TPLINO embedded Linux for e-health system

hwinkel — Wed, 28 Nov 2012 09:31:48 +0000

Hova Networks, a Mexican SME, and Feuerlabs Inc have used TPLINO embedded Linux to build a modern e-health patient information system to be used in hospitals throughout the District of Mexico City, Mexico.

The pilot system allows a patient to use a Near Field Communication (NFC) card at various locations within a hospital to receive customised services and offers. Each of these locations provides a NFC reader device which is able to communicate to external services to gather information or perform tasks.

Each NFC reader device runs TPLINO, the embedded Linux distribution developed by Travelping, as well as the Exosense stack developed by Feuerlabs. TPLINO enables a rapid development, packaging and deployment workflow as well as providing base support for the specialised reader hardware. By combining TPLINO as the base platform and Exosense, it was possible to focus on the user interaction and remote service communication to deliver a pilot system.

Feuerlabs’ cooperation with Travelping gives us both a feature-rich software stack, from kernel to application framework, enabling the power of Erlang in embedded systems. Using Travelping’s TPLINO distribution and build system, Feuerlabs can add value through its Exosense product to provide a complete ecosystem for connected devices.

Magnus Feuer, CTO of Feuerlabs, Inc.

Travelping products used in this project:

TPLINO embedded Linux
TPLINO Native Development Kit (NDK)
TPLINO Application Development Kit (ADK)
Travelping Devleopment Services

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Michronet M2M network

hwinkel — Thu, 01 Mar 2012 18:44:50 +0000

Imagine a world where everything just flows. Where machines, cars, appliances, meters or wind turbines communicate seamlessly. Machine to Machine (M2M) communication is building a network of connected devices. This will form a new network called the Internet of Things (IoT). Travelping is actively developing solutions for this new market.

Tony Martin, Technical Director of Cellubi.co.uk

Travelping products used in this project:

Session Control Gateways (SCG)
TPOSS Policy Control Server (PCS)
TPOSS Converged Charging Server (CCS)
TPOSS User Data Repository (UDR)
Travelping OpenFlow Controller

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