Indus OS an operating system originated with a motive to help people to use smartphone in their local language, Indus OS works with OEMs like Micromax, Intex and Karbonn to integrate its operating system, which offers features like translation through a single swipe, text-to-speech in nine regional languages and intuitive auto-correction. “Besides having a phone that…
Ericsson has opened the Kista 5G Transport Lab in conjunction with the KTH Royal Institute of Technology and the research institute Acreo Swedish ICT in an innovative collaboration aimed at spurring new advances within network transport infrastructure.
As the telecom and IT industries converge, the communications landscape is fast becoming user-driven, with the mass adoption of mobile broadband driving network transformations that call for optimizing transport, routing and services in the backhaul network.
At the same time, access networks are becoming more varied and complex and will soon comprise a mix of current technologies, 5G, LTE Advanced, Wi-Fi and hybrids, plus wired connections. Specifically, future 5G transport networks must be able to deliver the connectivity needed for expanded user services and cloud connectivity, and serve as a platform for service innovation.
In the new lab, which is based in Kista, Sweden and was launched in late January, Ericsson, Acreo and KTH are working toward structural and architectural changes that go beyond even today’s state-of-the-art networks and look toward the advent of 5G in approximately 2020. Researchers will be addressing dynamic operation on all network layers, common transport of traffic from mobile and fixed accesses, and integration of network management with services and applications.
“We want to show how programmable transport networks can be a platform for applications, user services and network services”. Mission-critical applications need to have end-to-end reliability on both the radio and transport layer. Both layers can cater to the needs of new applications, and we see that a single common transport network should be able to support cloud and radio requirements,” Peter Öhlen, Principal Researcher, IP & Transport, at Ericsson Research said in a release.
The new lab is a way to shorten the time between cutting-edge research and getting products to customers, Öhlen added.
Acreo and KTH are both leaders in transmission and networking research, and the project’s value is partly based on developing a new type of cooperation framework between universities, institutes and industry, specifically driven by demonstrations.
Within the project, Acreo and KTH researchers and PhD students will contribute concept evaluations, simulations, design and implementation for prototypes, while Ericsson will ensure that the work has long-term industrial relevance. The project is party funded by the VINNOVA, the Swedish Governmental Agency for Innovation Systems.
“The Kista 5G Transport Lab offers an excellent opportunity to expose our graduate students to high-level industry research,” Lena Wosinska, a professor in the KTH School of Information and Communication Technology said.
“On the other hand, it gives us a chance to utilize our broad expertise to solve real problems and to face future challenges. This is a great platform for collaboration between KTH, Ericsson and Acreo, and it’s very exciting to be building the networks of the future together,” Lena explained.
The lab has about 10 full-time researchers and staff split equally between the three partners, with Ericsson hosting the lab environment. The current scope is for two years, though this could be extended to three to five years.
The overall goal is to develop a prototype demonstrating a fully automated process from application to setup of the optical interface in the end equipment and a network connection. Within that scope, the specific focus for the first year will be the evolution of a Dense Wavelength Division Multiplexing-centric aggregation and metro network solution – plus small cell monitoring – that addresses three main topics: network flexibility, network programmability, and network performance.