= [=#subproj]MOSAIK: Projects = The MOSAIK project consists of 14 work packages (WP, subprojects) and the coordinating work package [[wiki:project/subproj/wpc|WP-C]]. {{{ #!div style="align:'left'; width: 400px; border: 0px solid; float:right" [[Image(UCM_workflow.png, 400px, right, margin-right=2, margin-top=0, border=2)]]\\ Work flow within MOSAIK }}} == Model development (M-projects) == The M-projects cover the urban climate model core development based on the existing large-eddy simulation model core [[https://palm.muk.uni-hannover.de|PALM]], which has been developed at Leibniz Universität Hannover. The model development work packages aim at adding missing components to PALM in order to build a full urban climate model. These works include a RANS turbulence parameterization, several nesting options and an energy balance solver for urban surfaces. Furthermore, urban chemistry and indoor climate will be incorporated in the new model. || '''Work package''' || '''Title''' || '''Institution''' || || [[wiki:project/subproj/wpm1|WP-M1]] || Implementation and validation of turbulence parameterizations || Leibniz Universität Hannover || [[wiki:project/subproj/wpm2|WP-M2]] || Large- and micro-scale nesting || Leibniz Universität Hannover || [[wiki:project/subproj/wpm3|WP-M3]] || Benchmarking and internal validation || Leibniz Universität Hannover || [[wiki:project/subproj/wpm4|WP-M4]] || Surface energy budget || Leibniz Universität Hannover || [[wiki:project/subproj/wpm5|WP-M5]] || Urban radiation and building parameterization || Humboldt-Universität zu Berlin || [[wiki:project/subproj/wpm6|WP-M6]] || Indoor climate and energy demand || Hochschule Offenburg || [[wiki:project/subproj/wpm7|WP-M7]] || Urban chemistry and air pollution || Karlsruhe Institue of Technology, Freie Universität Berlin Click on the work packages for a detailed description. == Input data and data management (D-projects) == The D-projects are responsible for data acquisition for selected "democities" and simulation periods in order to allow for an independent validation of PALM-4U within [[http://uc2-3do.org|Module B: 3DO]] of the BMBF funding framework. Moreover, the D-projects will be responsible for an adequate data processing and management for the MOSAIK partners. || '''Work package''' || '''Title''' || '''Institution''' || || [[wiki:project/subproj/wpd1|WP-D1]] || Processing and preparation of surface data || German Aerospace Center (DLR) || [[wiki:project/subproj/wpd2|WP-D2]] || Data management and user interface || GEO-NET Umweltconsulting GmbH || [[wiki:project/subproj/wpd3|WP-D3]] || User-friendly software package to customize output from meso-scale models for forcing PALM-4U, and application studies || German Meteorological Service (DWD) || [[wiki:project/subproj/wpd4|WP-D4]] || Urban soil water content || Ingenieurgesellschaft Prof. Dr. Sieker mbH Click on the work packages for a detailed description. == Advanced urban planning (P-projects) == In order to provide new innovative techniques and output products for end users, such as urban planners, the P-projects will develop standard biometeorological analysis products (e.g. thermal comfort/stress, UV and pollutant exposure) based on a new multi-agent based system which allows to incorporate socio-economic data into the modeling system. || '''Work package''' || '''Title''' || '''Institution''' || || [[wiki:project/subproj/wpp1|WP-P1]] || A multi-agent model for urban residents || Leibniz Universität Hannover || [[wiki:project/subproj/wpp2|WP-P2]] || Evaluation of human thermal comfort/stress and planning adaptation possibilities in urban areas || German Meteorological Service (DWD) || [[wiki:project/subproj/wpp3|WP-P3]] || Actinic complex for the calculation of the biologically weighted UV exposure of humans || Leibniz Universität Hannover Click on the work packages for a detailed description.