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Timo Vanhatupa

Bio: Timo Vanhatupa is an academic researcher from Tampere University of Technology. The author has contributed to research in topics: Wi-Fi & Wireless LAN controller. The author has an hindex of 8, co-authored 14 publications receiving 428 citations.

Papers
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Proceedings ArticleDOI
04 Dec 2007
TL;DR: A novel algorithm to rapidly create a high quality network plan for IEEE 802.11 based WLAN according to assigned design requirements was used in WLAN planning for a suburb, which is under development in Tampere-Lempaala area in Finland.
Abstract: This paper presents a novel algorithm to rapidly create a high quality network plan for IEEE 802.11 based WLAN according to assigned design requirements. The algorithm uses a Genetic Algorithm (GA) to explore the design space, and a IEEE 802.11 rate adaptation aware QoS estimation functionality to provide feedback for the algorithm and for a network designer. The algorithm selects AP devices, locations, antennas, as well as AP configuration including transmission power and frequency channel. The algorithm was used in WLAN planning for a suburb, which is under development in Tampere-Lempaala area in Finland. Compared to manual network planning, the developed algorithm was able to create a network plan with 133 % capacity, 98 % coverage, and 93 % cost. Manually the corresponding network planning took hours, whereas the algorithm computation time was 15 minutes.

227 citations

Proceedings ArticleDOI
21 Nov 2005
TL;DR: The design and implementation of two IEEE 1588 prototypes for wireless LAN (WLAN) are presented and the results achieved are fully comparable to those achieved with wired LAN implementations.
Abstract: IEEE 1588 is a standard for precise clock synchronization for networked measurement and control systems in LAN environment. This paper presents the design and implementation of two IEEE 1588 prototypes for wireless LAN (WLAN). The first one is implemented using a Linux PC platform and a standard IEEE 802.11 WLAN with modifications to the network device driver. The second prototype is implemented using an embedded WLAN development board that implements the synchronization functionality using an embedded processor with programmable logic device (PLD) circuits. The measured results show that 1.1 ns average clock offset can be reached on HW based implementation, while Linux PC network driver enables 660 ns with a standard WLAN. Although WLAN is an extremely difficult environment for the synchronization, the results achieved with the prototype are fully comparable to those achieved with wired LAN implementations

86 citations

Journal ArticleDOI
TL;DR: A performance model developed for the deployment design of IEEE 802.11s Wireless Mesh Networks contains seven metrics to analyze the state of WMN, and novel mechanisms to use multiple evaluation criteria in WMN performance optimization.

42 citations

Book ChapterDOI
01 Aug 2004
TL;DR: The design and implementation of an IEEE 1588 PC software prototype for Wireless LANs (WLAN) is presented and accuracy is improved using two new developed methods for outbound latency estimation.
Abstract: IEEE 1588 is a new standard for precise clock synchronization for networked measurement and control systems in LAN environment. This paper presents the design and implementation of an IEEE 1588 PC software prototype for Wireless LANs (WLAN). Accuracy is improved using two new developed methods for outbound latency estimation. In addition, an algorithm for adjusting the local clock is presented. The achieved accuracy is measured and compared between WLAN and fixed LAN environments. The results show that 2.8 μs average clock offset can be reached on WLAN, while wired Ethernet connection enables 2.5 μs.

34 citations

Journal ArticleDOI
TL;DR: Four throughput estimation models based on radio spectrum usage, practical throughput measurements, WLAN protocol behavior, and theoretical coverage estimations are evaluated, which did not produce significant WLAN throughput improvements compared to each other.

16 citations


Cited by
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Proceedings ArticleDOI
04 Dec 2007
TL;DR: A novel algorithm to rapidly create a high quality network plan for IEEE 802.11 based WLAN according to assigned design requirements was used in WLAN planning for a suburb, which is under development in Tampere-Lempaala area in Finland.
Abstract: This paper presents a novel algorithm to rapidly create a high quality network plan for IEEE 802.11 based WLAN according to assigned design requirements. The algorithm uses a Genetic Algorithm (GA) to explore the design space, and a IEEE 802.11 rate adaptation aware QoS estimation functionality to provide feedback for the algorithm and for a network designer. The algorithm selects AP devices, locations, antennas, as well as AP configuration including transmission power and frequency channel. The algorithm was used in WLAN planning for a suburb, which is under development in Tampere-Lempaala area in Finland. Compared to manual network planning, the developed algorithm was able to create a network plan with 133 % capacity, 98 % coverage, and 93 % cost. Manually the corresponding network planning took hours, whereas the algorithm computation time was 15 minutes.

227 citations

Journal ArticleDOI
TL;DR: Different aspects of WMNs design are surveyed and various methods that have been proposed either to improve the performance of an already deployed network or to improve its performance by a careful planning of its deployment are examined.
Abstract: With the advances in wireless technologies and the explosive growth of the Internet, wireless networks, especially Wireless Mesh Networks (WMNs), are going through an important evolution. Designing efficient WMNs has become a major task for networks operators. Over the last few years, a plethora of studies has been carried out to improve the efficiency of wireless networks. However, only a few studies are related to WMNs design and are mainly concerned with protocol design and routing metrics optimization. In this paper, we survey different aspects of WMNs design and examine various methods that have been proposed either to improve the performance of an already deployed network or to improve its performance by a careful planning of its deployment.

202 citations

Book
01 Jan 1993
TL;DR: This tutorial and reference sets out to instruct users in organizing and managing multiple tasks, and multiple programs, in Windows by focusing on sharing and transferring data and graphics between Windows applications.
Abstract: This tutorial and reference sets out to instruct users in organizing and managing multiple tasks, and multiple programs, in Windows. It focuses on sharing and transferring data and graphics between Windows applications, either using a single computer, or by sharing across a network.

159 citations

Journal ArticleDOI
TL;DR: Experimental results are presented that show that potential accuracy limitations introduced by the physical layer of the IEEE 802.11b wireless local area network do not preclude clock-synchronization accuracy of several hundred nanoseconds.
Abstract: IEEE 1588 is a new standard to synchronize independent clocks running on separate nodes of a distributed measurement and control system. It is intended for high-accuracy implementations on compact systems such as a single subnet. This paper examines potential accuracy limitations introduced by the physical layer of the IEEE 802.11b wireless local area network. Experimental results are presented that show that these limitations do not preclude clock-synchronization accuracy of several hundred nanoseconds.

133 citations

Proceedings ArticleDOI
22 Jun 2009
TL;DR: Ad hoc and neighborhood search methods for optimal placement of mesh routers as more powerful methods for achieving near optimal placements of mesh router nodes are considered.
Abstract: With the fast development in wireless technologies and wireless devices, Wireless Mesh Networks (WMN) are becoming and important networking infrastructure, especially due to their low cost of deployment and maintenance. A main issue in deploying WMNs is the optimal placement of mesh routers to achieve network connectivity and stability through the maximization of the size of the giant component in the network and user coverage. In this work we evaluate ad hoc and neighborhood search methods for placement of mesh routers in WMNs. Routers are assumed having their own coverage area, oscillating between minimum and maximum values. Given a deployment area where to distribute the mesh router nodes and a number of fixed clients a priori distributed in the given area, ad hoc methods explore different topologies such as placement in diagonals, in corners of the area, in hotspots, etc.~and the resulting network connectivity and user coverage are measured. We have experimentally evaluated the considered ad hoc methods through a benchmark of generated instances as stand alone methods and as initializing methods of evolutionary algorithms. For each ad hoc method, different distributions of mesh clients (Normal, Exponential and Weibull), are considered and the size of the giant component and user coverage parameters are reported. Further, we considered neighborhood search methods for optimal placement of mesh routers as more powerful methods for achieving near optimal placements of mesh router nodes. The experimental evaluation showed the good performance of a swap-based movement neighborhood search, which achieved good connectivity of the network in few phases of neighborhood search exploration.

122 citations