{"title":"History of EISCAT – Part 5: Operation and development of the system during the first 2 decades","authors":"G. Wannberg","doi":"10.5194/hgss-13-1-2022","DOIUrl":null,"url":null,"abstract":"Abstract. This paper gives an inside view of the first 20 years of operation of the\nKiruna–Sodankylä–Tromsø (KST) part of EISCAT as experienced and\nremembered by myself. The paper is subdivided into an Introduction and 14 additional sections. Sections 2 to 7 describe the organisation, staffing and\nresponsibilities of the sites, with particular emphasis on the\ntransmitter-related work at Tromsø and the commuting of staff and\nequipment between the sites. The headquarters operation is treated in\nSect. 8. The UHF radar system is treated in Sect. 9. Section 10 is a\nreview of the VHF system, including a summary of transmitter and antenna\nproblems not available elsewhere in easily accessed media. Section 11 treats\nthe computer system and the proprietary control languages EROS, TARLAN and\nCORLAN. Section 12 describes the signal processing hardware, with special\nemphasis on the Alker correlator, its idiosyncrasies and the gradual\nunlocking of its capabilities through UNIPROG, the GEN system and the\nG2 system, culminating in the ability to run alternating code experiments\nroutinely. Section 13 presents the time and frequency keeping, a\nnon-trivial task in the early 1980s. Finally, Sect. 14 discusses the UHF\nspectrum problem and relates how the UHF system had to be constantly\nupgraded in order to be able to co-exist with the emerging mobile phone\nnetworks until the final closure of UHF reception at Kiruna and\nSodankylä in 2012. The paper ends with some personal reflections\n(Sect. 15).\n","PeriodicalId":48918,"journal":{"name":"History of Geo- and Space Sciences","volume":null,"pages":null},"PeriodicalIF":0.5000,"publicationDate":"2022-01-31","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"2","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"History of Geo- and Space Sciences","FirstCategoryId":"98","ListUrlMain":"https://doi.org/10.5194/hgss-13-1-2022","RegionNum":4,"RegionCategory":"哲学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"GEOSCIENCES, MULTIDISCIPLINARY","Score":null,"Total":0}
引用次数: 2
Abstract
Abstract. This paper gives an inside view of the first 20 years of operation of the
Kiruna–Sodankylä–Tromsø (KST) part of EISCAT as experienced and
remembered by myself. The paper is subdivided into an Introduction and 14 additional sections. Sections 2 to 7 describe the organisation, staffing and
responsibilities of the sites, with particular emphasis on the
transmitter-related work at Tromsø and the commuting of staff and
equipment between the sites. The headquarters operation is treated in
Sect. 8. The UHF radar system is treated in Sect. 9. Section 10 is a
review of the VHF system, including a summary of transmitter and antenna
problems not available elsewhere in easily accessed media. Section 11 treats
the computer system and the proprietary control languages EROS, TARLAN and
CORLAN. Section 12 describes the signal processing hardware, with special
emphasis on the Alker correlator, its idiosyncrasies and the gradual
unlocking of its capabilities through UNIPROG, the GEN system and the
G2 system, culminating in the ability to run alternating code experiments
routinely. Section 13 presents the time and frequency keeping, a
non-trivial task in the early 1980s. Finally, Sect. 14 discusses the UHF
spectrum problem and relates how the UHF system had to be constantly
upgraded in order to be able to co-exist with the emerging mobile phone
networks until the final closure of UHF reception at Kiruna and
Sodankylä in 2012. The paper ends with some personal reflections
(Sect. 15).
期刊介绍:
The scope of History of Geo- and Space Sciences (HGSS) is to document historical facts and knowledge and to improve awareness of the history of geoscience. The knowledge of the development of geosciences and their experimental methods and theories in the past can improve our current understanding and may stimulate current research. It is encouraging for young scientists to read biographical material of historical figures in their research area. It is important as well to learn that history of science is an integrated part of the ongoing research in their research area. Another important aim of the journal is the association of historical retrospective and current research.