A systematic methodology for continuous WLAN abundance and security analysis

In this paper, we present a systematic methodology for continuous surveying and analysis of 802.11 Wireless Local Area Network (WLAN) abundance and security, based on the passive wireless network scanning technique called wardriving. The objective is to provide an efficient, scalable, and easily accessible methodology for collecting, analysing and storing WLAN survey data. To adhere to these set requirements, the presented survey and analysis processes can be carried out with freely available open-source software and common off-the-shelf hardware. While extensive literature has been produced on wardriving and numerous WLAN survey studies have been documented in previous works, to our knowledge, no similar comprehensive methodology for systematic WLAN surveying and analysis has been previously presented. To further rationalise the need for surveying and analysing WLAN networks, an investigation on the related literature and the current state of the WLAN networking landscape has been conducted. Furthermore, as surveying WLAN networks via the wardriving technique undoubtedly raises legal and moral concerns, the legitimacy and ethics of wardriving have been examined. To test the effectiveness of the proposed methodology, a primary test and calibration WLAN survey was conducted in three separate locations within a middle-sized city located in Southwest Finland. Based on the survey results, WLAN security in Finland is in a relatively good state. During the test survey, we successfully collected and analysed data from 720 WLAN networks, proving the effectiveness of the proposed methodology. From the 720 detected WLAN networks, 6% used insecure encryption protocols, 12.8% were unencrypted and a clear majority of 81.3% used the WPA2 encryption protocol. Results also show that wireless network device owners in the surveyed areas are not inclined to alter the factory-set default settings of their wireless networks. It was noted that roughly 40% of the surveyed networks used easily identifiable factory-set SSIDs and only 5.4% of the networks had a cloaked SSID. Furthermore, the survey data shows that WLAN devices from 38 different manufacturers were detected. Three of the most popular manufacturers in the surveyed area were Cisco with 28.3%, Huawei with 15.7% and Ruckus Networks with 9.7%.</p

Battle of the bands: a long-term analysis of frequency band and channel distribution development in WLANs

In this article, we present the results of a long-term analysis ofWireless Local Area Network (WLAN) frequency band and channel distribution development. To the best of our knowledge, no similar research has been published in recent academic publications. Overcrowding of the limited frequency space on the 2.4 GHz band has become a significant issue in WLAN networking. Due to the overabundance of devices operating at 2.4 GHz, avoiding network performance degrading interference has become impossible in densely populated environments. Although the latest 802.11 WLAN standard amendments have shifted their emphasis toward the wider and less congested 5 GHz band, the 2.4 GHz band has stayed as the dominant frequency band. To observe the evolvement of WLAN frequency band and channel utilisation, data collected on nine WLAN surveys conducted between May 2019 and January 2022 was analysed. Furthermore, a simple linear regression model was produced to forecast the future development of WLAN frequency band utilisation. It was hypothesised that there would be an increase in 5 GHz frequency band utilisation as devices compliant with the latest 802.11 standard amendments become widely adopted. The survey results show a significant increase in 5 GHz frequency band utilisation. While the number of networks operating at 2.4 GHz saw a modest 42% increase, the number of networks operating at 5 GHz over doubled during the survey period. At the end of the study, 35% of all detected networks operated at 5 GHz, compared to 25% at the beginning of the study. Based on the produced linear regression model, the portion of 5 GHz networks in the survey area is expected to reach the level of 2.4 GHz networks by the autumn of 2025.</p

Exceedance of critical loads and of critical limits impacts tree nutrition across Europe

201

The 13th International Conference on Ambient Systems, Networks and Technologies (ANT) / The 5th International Conference on Emerging Data and Industry 4.0 (EDI40)

In this article, we present an analysis of the COVID-19 pandemic’s effects on Wireless Local Area Network (WLAN) security and abundance in Southwest Finland. We hypothesised that the drastic increase in telecommuting caused by the pandemic would encourage many to update obsolete WLAN devices, improving the state of WLAN security and increasing WLAN deployment in the survey region. To test our hypotheses, data from seven WLAN surveys carried out between February 2020 and October 2021 was analysed. Surprisingly, although the results show a 50.2% increase in WLAN deployment during the second and fourth waves of the pandemic, this had no significant effect on WLAN security in the survey region. The survey data shows little change in the number of unencrypted networks and networks configured with vulnerable encryption protocols. While most of the located networks were encrypted with the secure WPA2 protocol, the number of networks configured with the newest WPA3 has not notably increased. </p