S-72.620 Radio Network Planning Methods


	HUT / Communications Laboratory / Courses / S-72.620 Radio Network Planning Methods
Front page Program Staff Lectures Literature	S-72.620 Radio Network Planning Methods (2 cr.) Spring term 2005, second half term. NEWS: Assignment grades can be found here. NEWS: Exam results (04.01.2006) can be found here. NEWS: Exam results (05.09.2005) can be found here. NEWS: Excel sheet for PRX calculations can be found here. NEWS: Exam results (10.5.2005) can be found here. NEWS: Example exams 1 & 2. NEWS: Assignments are available also in E307. NEWS: Exam results (21.2.05) can be found here. Course status: The course is lectured every academic year in the spring term. Intended for fourth year students. The course can be included as a compulsory course in the major/minor subject Communication Systems and as optional course in the major/minor subjects Radio Engineering, Signal Processing for Communications Teletraffic Theory. Included in the curriculum of the International Master’s Program in Telecommunications. Course targets: The course gives basic knowledge about radio network planning with the focus on cellular radio network planning. This knowledge is needed by radio network planners employed by system manufacturers, operators or other parties in the mobile communications area. After the course the participant will understand and be able to apply in his own work: the objectives and general outline of radio network planning, the radio link budget and its application to BS design to meet coverage targets, traffic estimation and its application to cell design to meet capacity targets, interference analysis and its application to frequency allocation to meet interference outage targets in FDMA/TDMA based radio networks, relationship between capacity and coverage especially in CDMA networks. Prerequisites: It is assumed that the participants have done S-72.245 Transmission Methods in Telecommunication Systems or S-72.420 Design Metho-dology in Telecommunication Systems (3 credits) or equivalent courses and S-72.610 Mobile Communication Systems and Services (2 credits). Teachers: Professor Sven-Gustav Häggman is the responsible teacher of this course. Lectures and exercises: Lectures are held on Wednesdays 10 – 12 a.m in Auditorium S3, and on Thursdays 10 – 12 a.m. in Room I256. Separate exercises hours are not held, but typical problems and their solutions are shown interleaved with the lectures. Assignment: The course includes a compulsory assignment where the described planning methods are applied to the preliminary design of a GSM1800 radio network for a fictive service area. The assignment is done in two persons’ teams. The plan comprises a capacity plan, a coverage plan, and a frequency plan, which are done like in the lecture example (which is not GSM). The plan is based on the use of macrocells in all regions, but in the city region a separate macrocell plan for vehicular originated traffic and microcell plan for pedestrian originated traffic are implemented. The target is to first estimate the offered traffic and then minimize the number of cells, and then to minimize the number of transceivers in each cell still fulfilling the blocking and interference outage targets for this traffic, given the maximum parameter values. Network tuning and easy network expandability are not considered. The purpose of this exercise is to help the student to understand how different things interact in cellular radio network planning, and, hopefully, to give the student skills to design computer planning tools. It corresponds mainly to the initial network dimensioning to get a rough cost estimate when a vendor should offer a network. Final network planning should be made with computer tools and may be based on other objectives than minimising excess capacity as in this assignment. To facilitate the work some unsupported Excel-tools for radio link budget and minimum reuse distance calculations are provided. Requirements: The course is carried out by an exam and an assignment. The exam requirements consist of the material distributed to the students. The first exam is on May 10, 2005, the next exams are in August/September 2005 and in February 2006. The exam consist of two parts: starting with a closed book part comprising two tasks about general topics followed by an open book part comprising three problem solving tasks. Final grade: The final course grade is calculated from the formula: Final grade = (Exam grade + assignment grade)/2 The student should pass both the exam and assignment with an accepted grade. NEWS: Excel-files available for radiolink budged calculations: PRX_calculation.xls Please note: PRX-calculations.xls calculates PRX-value correctly but D/R values are NOT correct, please use D/R[PRX] graphs from lecture material. Rlink_budget_large _microcell.xls Rlink_budget_large_macrocells.xls Rlink_budget_macrocell.xls Literature: Lecture notes. Following text books and reports can provide background material: William C. Jakes: Microwave Mobile Communications, USA 1974, Wiley, 642pp. David Parsons: The Mobile Radio Propagation Channel, Second edition Great Britain 2000, Wiley, 418pp. Theodore S. Rappaport: Wireless communications, Principles & practice USA 1996, IEEE Press, 641 pp. ETSI Technical Report ETR 103, Radio Network Planning Aspects (GSM 03.30), Second edition, February 1995, 33pp. Radio Network Planning and Optimisation for UMTS, Edited by Jaana Laiho, Achim Wacker, and Tomáš Novosad, England 2002, Wiley, 484 pp. J. Lempiäinen, M. Manninen, Radio Interface System Planning for GSM/GPRS/UMTS”, Kluwer Academic Publishers, 2001 ************************************************ NEWS: Do you need help with assignment? Try EeForum! There you can ask questions or help other students. NEWS: Exam results (27.09.2004) can be found here. NEWS: Exam results (15.5.2004) can be found here. NEWS: First lecture: On Wednesday, 17.03.2004, 10-12, S1 Register via WebTopi! [Front page] [Program] [Staff] [Lectures] [Literature] Updated by Mika Nupponen 2.5.2005