Appendix 4 to esa ao/1-9225/18/NL/FF/gp

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Table x.x-2 : role in the project of TAS.

Reporting lines within the team

UNILEON
WP1000 local leader: Dr. Diego Domínguez

WP2000 leader: Dr. Jesús Gonzalo

WP3000 local leader: Dr. Jesús Gonzalo

WP4000 leader: Dr. Diego Domínguez

WP5000 local technical officer: Dr. Jesús Gonzalo

WP5000 local contracts officer: Ms. Ana Isabel García Prieto

Position of each of the team members within his/her own company’s (or institute’s) structure

NILU

Norwegian Institute for Air Research (NILU) is an independent, non-profit institution (foundation) established in 1969. Through its research, NILU increases the understanding of processes and effects of climate change, of the composition of the atmosphere, of air quality and of hazardous substances. Based on its research, NILU markets integrated services and products within the analytical, monitoring and consulting sectors. The institute is concerned with increasing public awareness about climate change and environmental pollution.

Kerstin Stebel, Arve Kylling and Ann Mari Fjaeraa have their positions in the Atmosphere and Climate department, while Philipp Schneider holds a position in the Urban Environment and Industry department.

UNILEON
The next figure provides the position of León University key people within the company.
Department of Mechanical, Computing and Aerospace Engineering

Ms Hilde Pérez

Mechanical Engineering Area

PhD Hilde Pérez

Computer Architecture

PhD Vicente Matellán

Manufacturing Area

PhD Joaquín Barreiro

Language Computer Systems

PhD Adolfo Rodríguez-Soto

Engineering Projects Area

PhD Manuel Castejón

Aerospace Engineering Area

PhD Jesús Gonzalo

Administrative support

Ms. Marián Villamediana

System engineering

PhD Jesús Gonzalo
CFD

Optimisation

Systems

PhD Jesús Gonzalo

Software

Applications

PhD Diego Domínguez

The Aerospace Group at ULE is, from the organisational point of view, within the Engineering Department, together with other mechanical and computer science groups. There is a fruitful communication among all the groups, which enrich multidisciplinary projects such as the present one. The internal organisation, although simple, considers three areas of activity, as shown in the scheme. CFD and Optimisations refer to a specific research on new techniques and algorithms to solve fluid equations and to provide efficient solutions for flying objects. The System Engineering section is in charge of managing end-to-end developments, from user needs and market protections to design and budgeting. In some cases, projects include proofs of concepts that need to be implemented, tested and checked against user specifications. In this study, Applications and Systems are the two involved sections.

The next figure provides the position of TAS-F key people within the company.

DEIMOS is organised into a matrix structure comprising operational (Departments) and regional (Countries) units, topped by a common corporate structure. The following top-level organizational chart illustrates the current executive management structure of DEIMOS and the location of the project within the Space Engineering Department.

The current companies of DEIMOS are:

Deimos Space S.L.U. (founded in June 2001), Tres Cantos (Madrid, Spain).

Deimos Engenharia S.A. (founded in September 2002), Lisbon (Portugal).

Deimos Castilla La Mancha S.L.U. (founded in September 2010), Puertollano (Spain).

Deimos Romania S.R.L. (founded in October 2013), Bucharest (Romania).

Deimos United Kingdom Ltd. (founded in November 2013), Harwell (UK).

It is proposed that DEIMOS involvement in the study will be managed within the Space Engineering Department, if a contract is awarded to the Consortium by ESA. The Space Engineering Department deals with a wide spectrum of engineering activities, and it is composed of five Business Units: Flight Systems, Ground Segment, GNSS, Satellite Systems, and Space Situational Awareness. DEIMOS activity in the study will be developed under the Flight Systems and Ground Segment Business Units, which span among Spain, Portugal, UK and Romania.

In particular, the Flight Systems Business Unit will be in charge of the Mission Analysis activities, while the Ground Segment Business Unit will undertake the responsibility for the Ground Segment concept definition (including Data Processing). In the proposed scheme, the project leader has direct access to a higher level of management of the company, through the Division Head and the Head of Business Unit.

Figure x.x-4: DEIMOS Organisation Chart and Location of the Project within DEIMOS Department Structure.

Time dedication of key personnel

[Identify the proposed key personnel and, for each Key Personnel identified in 2.1.1.1 above, provide a summary of the hours dedicated to each WP as well as their Time Dedication (i.e. the percentage of their total working time to be dedicated to the envisaged Contract, in average over its total duration and relative to the single WPs on which they are to work)]

Key personnel	Partner	Average Time Dedication	WP	#Manhours	Time Dedication
AM. Fjaeraa	NILU		WP1000
			WP2000
			WP3000
			WP4000
			WP5000
J. Gonzalo			WP1000	120
			WP2000	285
			WP3000	150
			WP4000	45
			WP5000	30
D. Domínguez			WP1000	40
			WP2000	60
			WP3000	90
			WP4000	40
			WP5000	0
C. Desroches			WP1000	40
			WP2000	60
			WP3000	90
			WP4000	40
			WP5000	0
S.Tonetti	DEIMOS		WP1000
			WP2000
			WP3000
			WP4000
F.J.López-Honrubia	DEIMOS		WP1000
			WP2000
			WP3000

Curricula Vitae

[Concise CVs including relevant information for all key personnel]

Family name	Kylling	First name	Arve
Position	Senior Research Scientist	Company	NILU - Norwegian Institute for Air Research
Phone number	+47 63898000	e-Mail	arve.kylling@nilu.no
Date of Birth	16 September 1962	Nationality	Norwegian
Relevant Experience
A. Kylling has 30 years of experience with radiative transfer modelling. This includes model development, testing, validation and documentation of the much used libradtran model (www.libradtran.org). He has participated in numerous experimental campaigns with ground, balloon, and aircraft-based instruments and analysed data thereof. Furthermore he has experience in data retrieval from solar and thermal ground and satellite based instruments. He has also taken part in the development of solar radiation instruments. A. Kylling has participated in numerous national and international projects, and has collaborators world-wide as demonstrated by his publication record.
Qualifications and Affiliations
Education and present position: 1985 Cand. Scient (M.Sc) in Physics, University of Oslo, Department of Physics, Norway 1992 Ph.D. Atmospheric Science, University of Alaska-Fairbanks, USA. 2011 - present Senior research scientist at NILU, Norway. Radiative transfer modelling. Data analysis. Project management. Core Competences: Solar and thermal radiative transfer modelling; data analysis and presentation; data retrieval. Competences: Programming Languages: Python, C, Fortran, Perl Operating Systems: Linux, Windows Publications (selected): 54 publications in peer-reviewed journals, 18 as first author. H-index 22 (ISI). C. Emde, R. Buras-Schnell, A. Kylling, B. Mayer, J. Gasteiger, U. Hamann, J. Kylling, B. Richter, C. Pause, T. Dowling, and L. Bugliaro. The libradtran software package for radiative transfer calculations (version 2.0.1). Geoscientific Model Development, 9(5):1647-1672, 2016 Kylling, A., Kristiansen, N., Stohl, A., Buras-Schnell, R., Emde, C. and Gasteiger, J., A model sensitivity study of the impact of clouds on satellite detection and retrieval of volcanic ash, Atmospheric Measurement Techniques, 8, 1935-1949,doi:10.5194/amt-8-1935-2015, 2015. Marzano F.S., S. Corradini, L. Mereu, A. Kylling, M. Montopoli, D. Cimini, L. Merucci, and D. Stelitano, Multisatellite Multisensor Observations of a Sub-Plinian Volcanic Eruption: The 2015 Calbuco Explosive Event in Chile, IEEE Transactions on Geoscience and Remote Sensing, 99, 1-16, doi:10.5194/amt-11-781-2018, 2018.

Family name	Stebel	First name	Kerstin
Position	Senior Research Scientist	Company	NILU - Norwegian Institute for Air Research
Phone number	+47 638988175	e-Mail	kerstin.stebel@nilu.no
Date of Birth	19 November 1963	Nationality	German
Relevant Experience
K. Stebel more than 20 years’ experience with measurement ground-based remote sensing measurement techniques for trace gas and aerosol retrieval, including imaging systems, UV/Vis spectroscopy, sun-photometry and lidar. She has participated in numerous experimental campaigns and inter-comparisons and analysed data thereof. Furthermore, she has a long-record in validation of data from satellite instruments, in particular of the ENVISAT sensors. She is also responsible for the development of UV and TIR cameras systems. K. Stebel had participated in numerous national and international projects, and acted as project manager, including ESA projects like VAST and the ongoing SAMIRA project. She has a wide area of expertise in atmospheric sciences as demonstrated by his publication record. She is the author or co-author of over 52 peer-reviewed publications, h-index 21
Qualifications and Affiliations
Education and present position: 1992 Diploma in Physics, University of Cologne, Germany 1998 Dr. rer. nat., University Bremen, Germany 2002 - present Senior research scientist at NILU, Norway. GB remote sensing, Satellite validation, Data analysis. Project management. Core Competences: Ground-based remote sensing of trace gases and aerosols, including imaging, spectroscopy, sun-photometry and lidar techniques, satellite validation. Competences: Project management, instrument development (UV/IR camera systems) Programming languages: Python, IDL, Matlab Publications (selected): Gliß, J., Stebel, K., Kylling, A., Dinger, A., Sihler, H., Sudbø, A.(2017), Pyplis–A Python Software Toolbox for the Analysis of SO₂ Camera Images for Emission Rate Retrievals from Point Sources, Geosciences 2017, 7(4), 134; doi:10.3390/geosciences7040134. Bingen, C., Robert, C. E., Stebel, K., Brühl, C., Schallock, J., Vanhellemont, F., Mateshvili, N., Höpfner, M., Trickl, T., Barnes, J. E., Jumelet, J., Vernier, J.-P., Popp, T., de Leeuw, G., & Pinnock, S. (2017). Stratospheric aerosol data records for the climate change initiative: Development, validation and application to chemistry-climate modelling. Remote Sensing of Environment, 203, 296-321. doi:10.1016/j.rse.2017.06.002 Popp, T., de Leeuw, G., Bingen, C., Brühl, C., Capelle, V., Chedin, A., Clarisse, L., Dubovik, O., Grainger, R., Griesfeller, J., Heckel, A., Kinne, S., Klüser, L., Kosmale, M., Kolmonen, P., Lelli, L., Litvinov, P., Mei, L., North, P., Pinnock, S., Povey, A., Robert, C., Schulz, M., Sogacheva, L., Stebel, K., Stein Zweers, D., Thomas, G., Tilstra, L.G., Vandenbussche, S., Veefkind, P., Vountas, M., Xue, Y. Development, Production and Evaluation of Aerosol Climate Data Records from European Satellite Observations (Aerosol_cci). Remote Sens. 2016, 8, 421

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