Refine
Departments, institutes and facilities
Document Type
- Conference Object (23)
- Report (3)
- Preprint (2)
- Article (1)
- Doctoral Thesis (1)
- Patent (1)
Year of publication
Keywords
- LoRa (4)
- 802.11 (3)
- IEEE 802.11 (3)
- LoRaWAN (3)
- Measurement (3)
- WiLD (3)
- IEEE802.11 (2)
- Long-Distance WiFi (2)
- Low-Power Wide Area Network (LP-WAN) (2)
- MPLS (2)
Exemplarische Untersuchungen zum Potenzial von LTE zur Breitbandversorgung ländlicher Regionen
(2010)
Anhand von Funkfeldmessungen in mehreren ausgewählten Orten im Hochsauerlandkreis wird die Frage diskutiert, welchen Beitrag der Aufbau eines LTE-Netzes zur Breitbandversorgung von bisher unterversorgten Gebieten im ländlichen Raum liefern kann - und dies unter Verwendung bestehender GSM-Basisstationsstandorte und dem Frequenzbereich der Digitalen Dividende. Für verschiedene Szenarien werden Empfangspegelstatistiken mit geforderten Empfängerempfindlichkeiten verglichen, Statistiken zur zu erwartenden Datenraten abgeleitet und Netzkapazitäten abgeschätzt. Dabei zeigt sich, dass i. A. sowohl der Empfangspegel als auch die Netzkapazität ausreichen, um mittels LTE eine genügende Zahl von Anschlüssen mit einer Downlink-Datenrate von mindestens 1 Mbit/s in den untersuchten Ortschaften bereit zu stellen. Hohe Versorgungsgrade mit Datenraten von 50 Mbit/s sind jedoch nicht zu erwarten. Durch eine Außeninstallation der Endgeräteantennen lassen sich auch bei 2600 MHz nahezu optimale Empfangsbedingungen erzielen. Insofern scheint ein Mischbetrieb mit Frequenzen im 800- und im 2600-MHz-Bereich geeignet, die Netzkapazität auch im ländlichen Raum zu erhöhen.
This work describes extensions to the well-known Distributed Coordination Function (DCF) model to account for IEEE802.11n point-to-point links. The developed extensions cover adaptions to the throughput and delay estimation for this type of link as well peculiarities of hardware and implementations within the Linux Kernel. Instead of using simulations, the approach was extensively verified on real-world deployments at various link distances. Additionally, trials were conducted to optimize the CWmin values and the number of retries to maximize throughput and minimize delay. The results of this work can be used to estimate the properties of long-distance 802.11 links beforehand, allowing the network to be planned more accurately.
Rural areas often lack affordable broadband Internet connectivity, mainly due to the CAPEX and especially OPEX of traditional operator equipment [HEKN11]. This digital divide limits the access to knowledge, health care and other services for billions of people. Different approaches to close this gap were discussed in the last decade [SPNB08]. In most rural areas satellite bandwidth is expensive and cellular networks (3G,4G) as well as WiMAX suffer from the usually low population density making it hard to amortize the costs of a base station [SPNB08].
An Empirical Evaluation of the Received Signal Strength Indicator for fixed outdoor 802.11 links
(2015)
For the evaluation of the received signal strength indication (RSSI) a different methodology compared to previous publications is introduced in this paper by exploiting a spectral scan feature of recent Qualcomm Atheros WiFi NICs. This method is compared to driver reports and to an industrial grade spectrum analyzer. During the conducted outdoor experiments a decreased scattering of the RSSI compared to previous publications is observed. By applying well-known mathematical tests for normality it is possible to show that the RSSI does not follow a normal distribution in a line-of-sight outdoor environment. The evaluated spectral scan features offers additional possibilities to develop interference classifiers which is an important step for frequency allocation in long-distance 802.11 networks.
SDN and WMN evolved to be sophisticated technologies used in a variety of applications. However, a combined approach called wmSDN has not been widely addressed in the research community. Our idea in this field consists of WiFi-based point-to-point links managed by the OpenFlow protocol. We investigate two different issues regarding this idea. First, which WiFi operational mode is suitable in an OpenFlow managed broadcast domain? Second, does the performance decrease compared with other routing or switching principles? Therefore, we set up a real-world testbed and a suitable simulation environment. Unlike previous work, we show that it is possible to use WiFi links without conducting MAC address rewriting at each hop by utilizing the 4-address-mode.
WiFi-based Long Distance (WiLD) networks have emerged as a promising alternative approach for Internet in rural areas. However, the MAC layer, which is based on the IEEE802.11 standard, comprises contiguous stations in a cell and is spatially restricted to a few hundred meters at most. In this work, we summarize efforts by different researchers to use IEEE802.11 over long-distances. In addition, we introduce WiLDToken, our solution to optimizing the throughput and fairness and reducing the delay on WiLD links. Compared to previous alternative MAC layers protocols for WiLD, our focus is on optimizing a single link in a multi-radio multi-channel mesh. We implement our protocol in the ns-3 network simulator and show thatWiLDToken is superior to an adapted version of the Distributed Coordination Function (DCF) for different link distances. We find that the throughput on a single link is close to the physical data-rate without a major decrease over longer distances.