COST TU 0902 WG 1 meeting in Riga 9-10.11.2011 – 9.11 / 14.15-18.00 – Participants in Riga meeting – Minutes of the Karlsruhe meeting and a progress after – Discussion about Integrated analyses, WG1 goals in Memorandum of understanding MOU , presentations – WG1 , table of content for a review – Case study regions – Scientific papers, conferences • Trondheim conference paper 6/2012 • Helsinki conference spring 2013, Urban fabric ? – UZ – Next meeting in WG1 – STSM in WG 1 , WG1 Meetings – Budget in WG 1 10.11. / 11.00-13.30 ( joint meeting with WG1 and WG 4) – Joint review ? – Planning policy , Case-studies, EEA (Urban Audit, UMZ) List of participants in Riga meeting – Mika Ristimäki , chair of WG1 , SYKE / Helsinki mika.ristimaki@ymparisto.fi – Jonathan Köhler, vice-chair WG1, ISI / Karlsruhe. J.koehler@isi.fraunhofer.de – Gerald Leindecker, Linz, – Kestusis Zaleckis, Lithuania, kestutis.zaleckis@ktu.lt – Dragutin Mihailovic, Serbia, guto@polj.uns.ac.rs – Jaume Fons, (EEA, Spain) jaume.forns@vab.es – Gabor Dombay, Budabest, dombay.gabor@ybl.szie.hu – Vincent Viguié,CERED Paris, viguie@centre-cired.fr – Efren Feliu, Technalia / Bilbao, efren.feliu@tecnalia.com – Michael Neuman, U,NSW, Australia m.neuman@unsw.edu.au office@leindecker.at UZ Minutes of the Karlsruhe 13-14.7.2011 meeting and a progress after UZ – Four speakers were present at the meeting: Ristimäki (FI), Feliu (ES), Viguie (FR), Köhler (DE) – The key messages from these presentations were: – The need to have an agreement about what Integrated Modelling is and how it fits into IA methods in general. – There may be common themes to all integrated Assessment analysis of cities, they all have a specific geographical frame of reference (the definition of the region to be analysed) and use population and geographical information together with economics in the assessment. – The following structure for the WG1 survey was agreed: – WG1 table of content for a review of urban IA studies – Mika Ristimäki [MR] introduced the agenda and explained the objectives of the MC meeting, which were to: – To present possible contributions to the WG1 case studies of Integrated Assessment methodologies for cities – To develop a structure for the first WG1 survey of Integrated Assessment methodologies. – Advance the WG programme and develop the plans for the coming year. Identify productive Short Term Scientific Missions (STSMs). – The participants presented their proposed case studies. – MR presented the results of the EU PLUREL project on peri-urban development in the EU. Peri-urban areas are defined as being in transition between rural and urban structures, forming a new area of interest outside the suburban areas of cities. An analysis of Helsinki and the land use and transportation developments has been undertaken and is proposed for inclusion as a case study in the WG1 review. UZ – Efren Felieu [EF] presented a multicriteria environmental assessment of Vitoria, south of Bilbao. While this is not a full integrated assessment analysis, information has been collected and analysed across several different disciplines, which could be expanded into an integrated assessment. Therefore, consideration of this would make a useful contribution to the WG1 review. – Vincent Viguié (VV) presented the NEDUM model of Paris. Time patterns of urbanisation have been generated through modelling economic and transport patterns through time, using the differential equation approach of the CIRED NEDYM model. – JK presented the Tyndall Centre IA assessment of London, combing disciplines including economics, transport and flood risk analysis to develop scenarios of landuse patterns , climate change and consequent flooding risks and damage assessments for Greater London and the surrounding area. – There was a discussion of futher WG1 outputs over the rest of the action. One possibility is a powerpoint presentation of the results of the WG1 review. This is planned for 2012. A topic for further discussion is the potential for the application of agent based modelling for IA of cities. A further possible topic for discussion is the possible application of transitions theory ideas to urban integrated assessment. These will be discussed further in future meetings. – MR has a trainee working with him at SYKE. MR will ask the trainee to look for further relevant cases of IA for cities. TNO has an IA tool, which is used for consultancy and ARUP have also undertaken consultancy on IA for urban areas. – Two possible STSMs were discussed. MR would like to go on an STSM to Karlsruhe, to analyse the Karlsruhe public transport tram and S bahn system. VV would like to go to Bilbao, to calibrate the NEDUM model for Bilbao. – Next meeting. The next meeting of WG1 will be held in Spring 2012. When the draft wg1 review is presented in Brno, the possiblility of holding a joint meeting with other WGs will be discussed. MOU, Review and collate the existing technologies, methodologies and case studies of integrated sustainability assessment at a city scale. UZ – Sustainable development of cities involves a number of deeply inter-related challenges, e.g. climate impacts, resource use and waste. However, responses to the challenges of sustainable development are bound to have undesirable side-effects if they are not studied in an integrated way. Integrated assessment of the form, function and dynamics of change in urban areas represents a formidable challenge. A new generation of quantified integrated assessment methods is emerging that is highly innovative in a number of respects and has the potential to provide new tools to support the complex process of managing urban areas. These tools are increasingly integrating multiple facets of sustainability (e.g. multiple climate impacts, or consideration of adaptation and mitigation measures) yet they remain embryonic. Researchers are developing pioneering approaches to develop, previously unavailable, integrated methods for analysis and decision making within the complex coupled technological, human and natural systems that constitute urban areas. – The aim of this task is to bring together the scientists, engineers, planners and stakeholders with an interest in managing cities to share methods, experiences and ideas and explore different approaches to addressing this complex systems problem. The sub-tasks required for Task 1 are: UZ – (i) Review approaches to sustainability appraisal in European cities by identifying the key needs of policy makers with regards sustainability in cities and the key metrics of sustainability currently employed. – (ii) Review existing methods of integrated assessment, focusing on the limited methods currently available at the city scale, but also drawing on experience from other fields (e.g integrated coastal zone modelling) and scales (e.g. global integrated assessment modelling). – (iii) Explore application of different methods through sharing data, methodological expertise and case study information. – (iv) Draw on outputs from Tasks 2-4 to explore how adaptation/mitigation, resource flows/ecosystem services and support for long term planning might be better incorporated into city-wide integrated assessment models. – (v) Make recommendations, identify future research needs and provide a schematic design for a systems-based integrated assessment framework for urban sustainability analysis. This will be supported by case study examples where possible. WG1 , table of content for a review UZ – Scope of study: What are the questions? What is modelled or assests ? ( land use model, transport model ) Key policy questions – Methodology/disciplines or academic fields: Geography, environment, economics, Scenarios – Data, data sources: Urban Audit, FARO, CORINLAND CORINAIR, Local datasets – Links with policy makers/Urban planners – Results of the case studies – – Urbanisation, dynamics of urban form – Environmental impacts – Policy recommendations – Vulnerability and resilience – Were important connections between disciplines found that determined the results? Conclusions – Added value of IA for urban planning; Can these methods/results be applied to other cities? WG 1 Review, important aspects UZ – Introduction – Planning literature (articles, Perth, World Planning School Conf. 2011, TNO model system, ARUP?) – Urban IA models – Why IA modelling of cities? Planning aspects of urban development, significant feedbacks between aspects/disciplines – Complexity/trans-disciplinarity/trade-offs and synergies Discussion in WG1 : Should we contain the planning policy analyses into the WG1 review ? => Cooperation with WG 4 COST Case study, comparisson the corridors and analyses of urban transformation usin IA methods UZ Case studies: – Helsinki-Lahti, Tampere ( Mika Ristimäki) – Praha-Liberec, Ostrava ( Lena Halounova) – Bilbao –Vittoria MCA analysis ( Efren Felieu) – Paris NEDUM ( Vincent Vigui´e) – London Tyndall ( Jonathan Köhler, Richard Dawson) – Any other? The interest of case studies by mail before 1.12. to Mika and Jonathan. 1 A4 paper for all case studies ; how your case study will contribute to MOU wg1 tasks and wg1 review content) – – Budapest , Gabor – Barcelona, Jaume – Linz , Gerala – Kaunas., Kestutis – Belgrad, Dragutin Case study regions in WG4? Oslo or Trondheim ? Scientific papers, conferences Trondheim conference paper 6/2012 – Mika and Jonathan will draft the content of the paper before end of january 2012 , WG 1 writers are wellcome to join into this paper. – Content: Summary of the IA methods and case studies Helsinki conference spring 2013, Urban fabric ? – Finnish Environment Institute (SYKE) will organize a scientific Conference about ”Urban Faric” in spring 2013. – Any other articles or conferenses? UZ STSM and Next meetings – UZ Lena Halounova was in Helsinki in last October Next STMS in WG 1 – Gerala Leindecker => Helsinki SYKE – Vincent Viguie => Bilbao Technalia – Mika Ristimäki => Karlsruhe Fraunhofer institute ( April 2012) – Gabor Dombay => SYKE in Spring Next meetings – WG 1 meeting as part of wg leaders meeting in Brussel on Jan./ Feb. WG1 16.2, – Trondheim 19-21.6.2012 – WG1 meeting 6.11.2012, Karlsruhe – Joint meeting with WG4 ? Next Steps – Combine the WG results in PPT – Drafting the review; case study result, framework, scope – New case study proposals in November – Next WG1 meeting in February linked in WG leaders meeting – Preparing the conference paper to Trondheim conference UZ Travel behaviour Location of activities Travel surveys Public transport zone Pedestrian zone Urban form Home environment UZ Commuting area Travel profile Car-oriented zone Travel-related zones of urban form Low mobility COST case studies Examples ( Mika Ristimäki and Lena Halounova) Helsinki-Lahti / Praha-Liberec Tampere-Ostrava Proposal for the future cooperation – Processing of three various cities in each country having similar conditions for analyzing sustainable development: – number of inhabitants – for comparable city scale for land use, transport systems, – economical orientation – for comparable economical and social conditions, – distance to Helsinki/Prague boundary/centre – for comparable conditions for external employment sources and other economical sources concentrated in prevailing part in both capitals . UZ UZ Tampere and Ostrava: Lahti and Liberec – similar number of inhabitants - 300 000 – similar number of inhabitants - 100 000 – heavy industry, – – university towns textile and jewelry industry, and wood processing in Liberec, wood processing, in Lahti – transport system, Ostrava tram and bus system, Tampere bus system – transport system, Liberec tram system, Lahti bus system – distance to capitals – more than 100 km (300 km to Prague – 3 hours by train, 200 km to Helsinki – 2 hours by train, highway connections) – distance to capitals – about 100 km (100 km to Prague – 1 hours by bus, 100 km to Helsinki – 1 hour by train, highway connections) – winter and summer sport centers – – – Recreational town pairs including their neighborhood – Lahti City , recreational resort/town Vierumäki , Pajulahti in Finland – Liberec and Jablonec mountainous touristic region in the Czech Republic Methods UZ – Method description and data exchange for the partner to be able to apply it for his already processed case city. – Mapping the urbanization with long time series in two cities in Finland and Czech Republic using methods and determine new information found by the partner´s one. – Definition of urban forms and transport relationships. – Urban classifications used in urban planning in the case cities according to already approved proposals and approved decisions. – Analyses of leisure time activities in urban and regional level focused also on aging population taking into account also green infrastructure and green corridors in urban form as the cheapest and the most natural human physical activity – walking. Anticipated outcomes and deliverables UZ – Comparison of two methods for land use determination in urban areas – their mutual relations, advantages, disadvantages, resolutions, scales, derived information, etc. as a case study. – Land use urban area types in Finland – cities with relatively new urban policy (19th – 21st century - and Czech Republic – cites with history since medieval period – intensity population, comparison of relation between areas of production and residential areas, city centers and subcenters (if exist) and recommendation for a sustainable urban planning policy for European towns – in the northern and central Europe – Transport systems in the different city pairs– types, intensity, distances to public city transport network, connection to their capitals – examples and recommendations for the spatial distribution for an efficient public city transport system. – Determination of indicators for suitable localization of recreational places for the aging part of population living in cities – in prevailing part in their suburb areas. Trip production Travel behaviour Location of activities Travel surveys Public transport zone Pedestrian zone Urban form Home environment UZ Commuting area Travel profile Car-oriented zone Travel-related zones of urban form Low mobility Travel-related Zones of Urban Form in Urban and Peri-Urban areas, Case Helsinki-Lahti corridor Mika Ristimäki Senior Researcher Finnish Environment Institute Unit of Built Environment Helsinki, Finland COST Case study, Helsinki- Lahti UZ – travel related zones of urban form from the hole corridor can be utilised – describe and interpret the urban form and travel patterns in urban , peri-urban areas and rural areas in corridor – pedestrian zones are strongest within areas of high level of public transport service and weakest in outer peri-urban areas. Sustainability urban design (SUD) analyses around railways stations in corridor – there is almost no potential to increase the public transport use in outer peri-urban areas without large scale public transport investments and location of intensified land use – rail-based inner peri-urban region has been successful in creating more polycentric urban form with less car-dependent life style – zones can be generalized to a planning method, which can be used to assess the effects of land use and transportation system development – Planning policy analyses in corridor – Future scenarios in corridor and assesments using IA methods UZ Travel related zones of urban form Pedestrian zones Public transport zones Car-oriented zones Travel related zones of urban form • based on commonly known methodology applied in many countries (e.g. ABC planning policy) • development of planning tool for land use and transport system planning • definition of criteria for zones • definition of urban form and mobility profiles for each zone type • created in co-operation with land use and transport planners UZ General criteria for the travel related zones of urban form Criteria for travel related zones is based on • distance to CBD area • distance to public transport stop • headway for public transport services • location of subcentra Public transport zones are on more than 2 km distance of the CBD area and there is high level of service of public transport. 1. Intensive public transport zone 2. Public transport zone Pedestrian zones Public transport zones 1. Pedestrian zone is limited in 1,0–2,0 km radius of CBD area 2. Pedestrian zone is surrounded by a fringe zone of the radius of 2-5 km radius of the pedestrian zone 3. In the metropolitan area the subcentres form an independent pedestrian zone Car-oriented zones The area outside the pedestrian and public transport zones is car-oriented zone. Usually in large urban areas there is also some public transport supply in car-oriented zones, but the public transport level of service is not as high as on public transport zones. In small urban areas the public transport supply of car-oriented zones is modest. Travel related zones in Helsinki Metropolitan Region Travel related zones of urban form on urban and peri-urban area • implementation of the zones on national level in 250x250 m grid cells •pedestrian zones describe the polycentric nature of Metropolitan Region Data • MUFFS data (Finnish Monitoring System of Urban Form and Spatial Structure) • public transport supply data • regional travel survey data UZ UZ Urban, peri-urban and rural areas in Helsinki Metropolitan Region Helsinki Urban Region Inner Peri-Urban area, good rail connection Inner Peri-Urban area Helsinki Urban Mid-sized cities,Region good rail connection Inner area, of good rail connection OtherPeri-Urban mid-sized cities region Inner Peri-Urban area Outer Peri-Urban area Mid-sized cities, good rail of connection Small towns in the fringe region Other mid-sized of of region Rural areas in thecities fringe region Outer Peri-Urban area Small towns in the fringe of region Rural areas in the fringe of region 0 400 000 Helsinki Urban Region Inner Peri-Urban Area, good rail connection Inner Peri-Urban Area Outer Peri-Urban Area 800 000 1 200 000 1 004 800 107 800 67 700 92 200 Peri-urban areas have altogether 268 000 inhabitants Helsinki –Lahti corridor UZ Travel related zones in Lahti Region UZ Trip production Travel behaviour Location of activities Travel surveys Public transport zone Pedestrian zone Urban form Home environment UZ Commuting area Travel profile Car-oriented zone Travel-related zones of urban form Low mobility Features of Helsinki-Lahti corridor UZ Pop. Population amount near the railway stations in 2010 (1 km distance) UZ Population amount near the railway stations in 2010 (10 km distance) UZ Workplace amount near the railway stations in 2010 (1 km distance) Commuting destinations ( workplace density) from Lahti to Helsinki region in 1980 and 2003 UZ Työmatkojen suhteellinen osuus (%) Lahdessa asuvien työmatkojen suuntautuminen Lahden ulkopuolelle vuosina 1990, 1995 ja 2003 6 5 PKS + kehyskunnat (14) 4 Hollola 3 Nastola 2 Heinola Orimattila 1 0 1990 1995 2003 Työmatkojen lukumäärä Lahdessa asuvien työmatkojen suuntautuminen Lahden ulkopuolelle vuosina 1990,1995 ja 2003 2500 PKS + kehyskunnat (14) 2000 Hollola 1500 Nastola 1000 Heinola 500 Orimattila 0 1990 1995 2003 UZ Commuters ( Lahti to Helsinki region) amount and field of industry in 2003 UZ Lahdesta pääkaupunkiseudulle ja sen kehyskuntiin suuntautuneet työmatkat toimialoittain vuonna 2003 500 16 10 8 200 100 6 4 2 0 0 Työmatkojen (%) Työmatkojen lukumäärä 300 12 Työmatkojen suhteellinen osuus 14 400 lukumäärä Työmatkojen suhteellinen osuus Kauppa: Marketing services Teollisuus:Industry Majrav: Restaurants and hotels Lielpa: Services to other industries Infosekt:Information sector Korkeatekn: High--Tech UZ 100 % 80-200 km 80 % 50-80 km 60 % 20-50 km 5-20 km 40 % 2-5 km 20 % 0-2 km Teollisuus Kauppa Majrav Lahdessa asuvien työmatkojen jakautuminen pituusluokittain eri toimialoilla vuonna 1990 ja 2003 (alle 200 kilometrin työmatkat). Commuters trips share by field of industry in 1990 and 2003 Lielpa 2003 1990 2003 1990 2003 1990 2003 1990 2003 1990 2003 1990 0% Korkea Infosekt tekn. Kauppa: Marketing services Teollisuus:Industry Majrav: Restaurants and hotels Lielpa: Services to other industries Infosekt:Information sector Korkeatekn: High--Tech Trip production Travel behaviour Location of activities Travel surveys Public transport zone Pedestrian zone Urban form Home environment UZ Commuting area Travel profile Car-oriented zone Travel-related zones of urban form Low mobility Features of peri-urban area of Helsinki Metropolitan Region UZ Examples of typical areal profiles of the zones Work place density (work places/ hectar) Areal density rate (floor area/ land area) Household density (number of hh/ hectar) Population density (inhab./ hectar) Commercial work places / hectar Pedestrian zone 1,35 60 101 160-190 12,4 Fringe of pedestrian zone 0,53 36 59 56 1,4 Intensive public transport zone 0,25 18 34 19 1,0 Public transport zone 0,16 12 26 9 0,5 Pedestrian zone of a subcentre 0,35 25 46 26 3,1 Car oriented zone 0,07 4 11 3 Helsinki Urban Region Inner Peri-Urban area, good rail connections Pedestrian zone 0,16 12 24 8 Fringe of pedestrian zone 0,06 4 10 2 Public transport zone 0,10 8 17 3 Car oriented zone 0,02 1 3 <1 Pedestrian zone 0,08 6 12 4 Fringe of pedestrian zone 0,04 2 6 1 Public transport zone 0,05 3 7 2 Car oriented zone 0,02 <1 2 <1 1,0 0,2 Inner Peri-Urban area 0,4 0,1 UZ Population development in inner and outer peri-urban area Peri-Urbanisation • Peri-urban development is the most rapid type of land use change in Europe • In Helsinki peri-urban area the urban sprawl is one of the strongest in Europe Share of population in car-oriented zones is 36 % Inner Peri-Urban area 100 000 Outer Peri-Urban area 90 000 90 000 80 000 80 000 70 000 70 000 60 000 60 000 50 000 40 000 30 000 Share of population in car-oriented zones is 45 % 100 000 Population Population Public transport zone is almost non-existing 50 000 40 000 30 000 20 000 20 000 10 000 10 000 0 1985 1990 1995 2000 2005 2007 Pedestrian zone Fringe of pedestrian zone Good public transport zone Public transport zone Car-oriented zone Zone outside densely populated area 2009 0 1985 1990 Pedestrian zone 1995 2000 2005 2007 Fringe of pedestrian zone Good public transport zone Public transport zone Car-oriented zone Zone outside densely populated area 2009 UZ Outer peri-urban area 30,0 Development of population density in peri-urban areas 25,0 Inner Peri-Urban areas with good area railwith connection good rail connection Peri-urban inhabitants/hectare 30,0 Pedestrian zone Good public tranport zone 15,0 Public tranport zone 20,0 10,0 15,0 10,0 Fringe of pedestrian zone 25,0 Inhabitant /hectare Inhabitant /hectare 20,0 OuterOuter Peri-Urban areas peri-urban area 30,0 20,0 Inhabitant /hectare 25,0 inhabitants/hectare Car-oriented zone Pedestrian zone Sparsely-populated area Fringe of pedestrian zone Whole region Good public tranport zone 15,0 Public tranport zone Car-oriented zone Sparsely-populated area 10,0 Whole region 5,0 5,0 5,0 0,0 1985 1990 1995 0,0 1985 1990 1995 2000 2005 2000 0,0 1985 2005 1990 1995 2000 2005 Travel behaviour Location of activities Travel surveys Public transport zone Pedestrian zone Urban form Home environment UZ Commuting area Travel profile Car-oriented zone Travel-related zones of urban form Low mobility Travel behaviour in urban and peri-urban areas UZ Daily mobility in the viewpoint of individual travel demand work related travel work place home daily or almost daily grocery shop leisure activities several times per week visiting friends or relatives weekly library doctor’s appointment railway hypermarket, station shopping specialized work place of centre store family barber, member hair dresser bank, office several times per month monthly frequency of visits several times per year airport car repair or sales yearly once in a few years UZ Daily mileage (passenger km) for inhabitants 0 pedestrian zone Helsinki Urban Region fringe of pedestrian zone 5 10 6,6 2,6 8,5 pedestrian zone of subcentre intensive public transport zone 3,4 4,6 35 40 45 50 passenger km/inhabitant, weekday 2,1 14,4 4,5 1,8 18,1 pedestrian zone 30 2,5 5,2 4,4 16,7 1,6 8,8 fringe of pedestrian zone 21,5 intensive public transport zone 20,7 public transport zone 8,5 1,6 6,6 29,6 car oriented zone 1,2 23,9 outside densely populated area 1,7 26,9 fringe of pedestrian zone 3,2 24,9 public transport zone 5,4 23,3 3,6 car oriented zone 31,9 outside densely populated area 4,3 30,1 pedestrian zone 6,0 5,2 28,9 intensive public transport zone 5,9 6,4 31,2 pedestrian zone Outer PeriUrban area 25 1,7 10,6 car oriented zone Inner PeriUrban area 20 1,5 11,6 public transport zone Inner PeriUrban area, good rail connection 15 3,7 30,1 fringe of pedestrian zone 2,5 33,2 public transport zone 31,3 car oriented zone 4,5 37,1 outside densely populated area 3,6 35,4 walk bicycle car bus train 3,3 tram metro UZ The interaction between population density and daily passenger car mileage daily passenger car mileage per person (km) 40 Outer peri-urban area 35 Inner peri-urban area 30 25 Inner peri-urban area & rail 20 15 10 Helsinki urban region 5 0 0 10 20 30 40 50 60 70 80 90 population density (inhabitants/ha) pedestrian zone fringe of pedestrian zone public transport zone car oriented zone good public transport zone 100 Carbon dioxide emissions of transport (g/inhabitants, weekday) 0 pedestrian zone fringe of pedestrian zone Helsinki Urban Region pedestrian zone of subcentre intensive public transport zone public transport zone car oriented zone Inner PeriUrban area, good rail connection pedestrian zone fringe of pedestrian zone intensive public transport zone 500 1 000 1 500 1 000 1 200 1 600 1 500 1 900 2 200 2 000 2 500 2 400 public transport zone car oriented zone 3 300 2 700 outside densely populated area 3 500 pedestrian zone Inner PeriUrban area public transport zone car oriented zone outside densely populated area pedestrian zone Outer PeriUrban area 3 200 fringe of pedestrian zone intensive public transport zone 2 000 3 300 3 000 2 700 3 600 3 400 3 300 fringe of pedestrian zone 3 600 public transport zone 3 600 car oriented zone outside densely populated area 4 200 4 000 2 500 UZ 3 000 3 500 4 000 4 500 CO2grams/inhabitant,weekday
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