IIT Annual Academic Report CampaignCourse 2023 - 2024 - English Version
The information available of Dr.D.Rafael Palacios Hielscher since September 01, 2023 to August 31, 2024 is showed below. This information will be used to develop the IIT Annual Academic Report and the Comillas Annual Report, so it is very important that it is correct and complete. All fields displayed in each reference must have information, unless otherwise stated (eg "Not Applicable"). Please, complete it. Also make sure the information is displayed in the correct section. If you find any errors or missing information, please send an email by clicking here indicating the section and incorrect or missing information. To send comments/suggestions/bugs... on the website, please click here. To view the Spanish Version, click here. To view the Full Version of the report, click here.
[Expand all | Collapse all] Chapter 1. Organizational structure [ | ]- 1.1 Management
- 1.2 Council
- 1.3 Area coordinators
- 1.4 Scientific advisory board
- 1.5 Academic staff
* | Name: | Rafael Palacios Hielscher | | Category: | Professor | | Degree: | Ph.D. in Industrial Engineering (Comillas)
Mechanical Engineer (Comillas) | | Areas of Interest: | Advanced data analysis (including vibration analysis, optical handwritten character recognition, image processing, artificial intelligence and data mining). Parallel processing. Thermoelectric applications. Failure detection and maintenance. Aviation safety. Cybersecurity. | | ICAI Department: | DTC | | | |
- 1.6 Associated academic staff
- 1.7 Pre- and postdoctoral fellows
- 1.8 Areas of Research
- 1.8.1 MAC Coordinator
- 1.8.2 REDES Coordinator
- 1.8.3 RYE Coordinator
- 1.8.4 SADSE Coordinator
- 1.8.5 PCI Coordinator
- 1.8.6 ASF Coordinator
- 1.8.7 ASI Coordinator
- 1.8.8 BIO Coordinator
- 1.8.9 SMS Coordinator
- 1.9 Services staff
- 1.9.1 Systems Administrator Staff
- 1.9.2 Administrative Staff
Chapter 2. Research [ | ]- 2.1 Research Projects
- 2.1.1 Research and develop projects
- 2.1.1.1 Private funding
- 2.1.1.2 Public funding
* | Abbreviated name: | RETOSINV-chronic-IoT-2020 | | Project title: | Development of movement behavior models of complex chronic patients | | Funding entity: | Ministerio de Ciencia e Innovación (MCIN), Agencia Estatal de Investigación (AEI) | | Start date: | June 2020 | | End date: | November 2023 | | Researcher(s): | Eugenio Francisco Sánchez Úbeda, Rafael Palacios Hielscher, Antonio Muñoz San Roque, José Portela González, Carlos Rodríguez-Morcillo García, Alejandro Polo Molina | | Description: | The aim of this project, coordinated with Virgen del Rocío University Hospital (HUVR), is to investigate how the deterioration of mobility may reflect changes in the patient's clinical condition, and its degeneration in the domain of integrated care of complex chronic patient.
To fulfill this objective, an IoT infrastructure and information system is developed. Based on the collected data on patients mobility, machine learning techniques are applied to create patterns capable of modeling and characterizing movement in the patients in order to explain aspects of the clinical evolution of patients.
Project PID2019-110747RB-C22/ funded by MCIN/AEI/10.13039/501100011033 |
| | | | * | Abbreviated name: | RAYUELA | | Project title: | RAYUELA. Empowering and educating young people for the internet by playing (Horizon 2020. Grant agreement No. 882828) | | Funding entity: | European Commission | | Start date: | October 2020 | | End date: | October 2023 | | Researcher(s): | Gregorio López López, Mario Castro Ponce, Álvaro Jesús López López, Javier Matanza Domingo, Sara Lumbreras Sancho, Yolanda González Arechavala, Carlos Rodríguez-Morcillo García, Rafael Palacios Hielscher, David Contreras Bárcena, Francisco Javier Herraiz Martínez, Jaime Pérez Sánchez, Luis Francisco Sánchez Merchante, Gabriel Antonio Valverde Castilla | | Description: | The RAYUELA project is a 3-years project beginning in October 2020 with a budget of 5M EUR. The consortium involves 17 partners from 9 countries and is co-ordinated by Universidad Pontificia Comillas. The project brings together experts from different areas of knowledge from all over Europe to develop an interactive story-like game that, on the one side, will allow minors to learn good practices on the use of the Internet and associated technology by playing, and, on the other side, will allow modelling, in a friendly and non-invasive manner, online habits and potential risk profiles related to cybersecurity and cybercriminality, providing Law Enforcement Agencies with scientifically sound foundations to define appropriate policies.
This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 882828 |
| | | | * | Abbreviated name: | eFORT | | Project title: | eFORT- Establishment of a FramewORk for Transforming current EPES into a more resilient, reliable and secure system all over its value chain (Horizon Europe. Grant agreement No. 101075665) | | Funding entity: | European Commission | | Start date: | September 2022 | | End date: | August 2026 | | Researcher(s): | Gregorio López López, José Pablo Chaves Ávila, Javier Matanza Domingo, Rafael Palacios Hielscher, Néstor Rodríguez Pérez, Miguel Ángel Sánchez Fornié, Lukas Sigrist, María del Valle Varo García, Mario Castro Ponce, Jaime Pérez Sánchez, Farid Bagheri-Gisour Marandyn | | Description: | Prompted by the need to comply with environmental and societal concerns, Electrical Power and Energy Systems are undergoing an unprecedented transformation, demanding urgent upgrades to make them more reliable, resilient and secure. Modernization of current grids will greatly reduce the frequency and duration of power blackouts, diminish the impact of disruptive events and restore service faster when outages occur, creating broad benefits to society and economy. eFORT approach will enable the further upgrading of the energy grid without affecting the security of supply and increasing their reliability and resiliency against extreme weather events, manmade hazards and equipment failures. eFORT addresses this complex challenge by gathering a consortium of 23 partners, from 10 EU countries, that provides the needed expertise. The project will put in place a set of solutions at the cyber and physical layers for detecting, preventing and mitigating vulnerabilities and threats. Among them, an interoperable Intelligent Platform will set a common foundation for grid characterization and vulnerability overseeing, as well as gather information from smart grid components and apply heavy-duty algorithms, whereas Asset Management developments will strengthen grid infrastructure robustness, which will be empowered by the addressed Digital Technologies. All these elements will be validated in relevant environments coming from 4 demo cases covering the whole grid value chain: (i) a transmission network (The Netherlands); (ii) a remote distribution grid (Italy); (iii) a digital substation in Ukraine; and (iv) a micro-grid in Spain. Moreover, eFORT relies on several horizontal actions aiming at empowering EPES players by establishing a common regulatory and standardisation framework, performing technical and cost-benefit analysis, and evaluating new related business models and replication potential, in the pathway towards a more sustainable energy system.
This project has received funding from the European Union’s Horizon Europe research and innovation programme under grant agreement No 101075665 |
| | | | * | Abbreviated name: | Rwanda-SE4All-2023 | | Project title: | Rwanda Integrated Clean Cooking Plan- Phase II | | Funding entity: | Sustainable Energy for All (SE4All) | | Start date: | January 2023 | | End date: | December 2023 | | Researcher(s): | Fernando de Cuadra García, Andrés González García, Pablo Dueñas Martínez, José Ignacio Pérez Arriaga, Carlos Mateo Domingo, Rafael Palacios Hielscher, Santos José Díaz Pastor, Olga Rico Díez | | Description: | Project for Sustainable Energy for All (SEforALL), towards the development of an Integrated Clean Cooking Plan for Rwanda, supported by geospatial information. Collaboration between the IIT-Comillas and MIT.
This is the Phase II of the project, devoted to the implementation and development of methods and tools, and the elaboration of some integrated plans (examples).
The methodology proposed for the preparation of integrated plans will include a large-scale optimization tool, with widespread use of geospatial information, which proposes detailed solutions (at a national level) on infrastructure developments and pricing policies (subsidies), seeking the maximum benefit/cost ratio. The benefits will be social, environmental and health-related, but the model must also include business benefits - as such a large-scale transformation needs to attract investment in a sustainable way. The tool will produce detailed and georeferenced results, to allow the planner to carry out sensitivity analyses with respect to input parameters and constraints. | | | |
- 2.1.2 Consultancy and technological support
- 2.1.2.1 Private funding
* | Abbreviated name: | PARAGUAY-PAUNE | | Project title: | Development of the universal access to electricity strategy in Bolivia, based on a geo-referenced electricity access plan | | Funding entity: | Inter-American Development Bank (IADB) | | Start date: | May 2023 | | End date: | April 2024 | | Researcher(s): | Rafael Palacios Hielscher, Andrés González García, José Ignacio Pérez Arriaga, Santos José Díaz Pastor, Hagos Meresa Weldu | | Description: | The objective of this consultancy is to support the government of Paraguay and ANDE in the development of a national electrification plan as a basis for achieving the goal of universal energy access by 2030.
The project includes the following phases:
1. Development of a georeferenced database in GIS format. This database should include the location of the communities and their buildings, the energy consumption of the communities, the location of existing power lines, access roads, protected areas, identification of the concession areas of the distribution companies, socioeconomic information of the communities, among other relevant information for the development and monitoring of the plan. The database will be prepared using available information to be provided to the consulting firm and data obtained remotely through satellite information or other means of support.
2. Estimation of rural electrification demand at a 2030 horizon (or other proposed by the consulting firm), adequate for the development of the plan.
3. Preparation of the national electrification plan, optimized at the lowest overall cost, and georeferenced that considers the technical and economic feasibility and national technical regulations for grid extensions and off-grid supply systems such as solar mini-grids with storage and photovoltaic home systems. The plan should be based on the estimated energy consumption of the communities. Based on this, and the projected costs of the energy solutions, the plan should size the energy solutions to be implemented to provide access to electricity in the communities, estimate the investment needs of capital costs (CAPEX), operation and maintenance costs (OPEX) and administration costs for the projects. The plan should be based on a global cost optimization to develop an execution and investment plan to achieve universal access by 2030. Finally, scenarios and sensitivities should be developed, estimating the reduction of emissions from the use of renewable technologies and their final results database.
4. Proposal of an investment plan for the execution of the plan (2023-2030), which identifies the investments required and the financing mechanisms to finance the electrification projects proposed in the plan. The definition of this plan requires analyzing the conditions of economic, technical and environmental sustainability of the proposed business models (grid supply, mini-grids and individual systems), the institutional and regulatory framework and the sources of capital and financing mechanisms used for the development of projects for access to electricity in other countries in the region, as well as in Africa and Asia, and which are relevant to Paraguay.
5. Present a template with the technical specifications for the projects resulting from the national electrification plan.
6. Develop a methodology for updating and monitoring the national electrification plan.
7. Identification and presentation of the risks and mitigation measures identified for the implementation of the national electrification plan. | | | |
- 2.1.2.2 Public funding
* | Abbreviated name: | PAKISTAN-PAUNE | | Project title: | Least cost electrification study and mini-grid portfolio readiness assessment for Pakistan | | Funding entity: | World Bank | | Start date: | June 2021 | | End date: | September 2023 | | Researcher(s): | Rafael Palacios Hielscher, Andrés González García, José Ignacio Pérez Arriaga, Santos José Díaz Pastor, Hagos Meresa Weldu | | Description: | The Government of Pakistan adopted sustainable development goals (SDGs) in February 2016. As a part of SDGs, the government has targeted universal energy access by 2030. This project aims to analyze both grid extension and off-grid systems as a potential solution for providing energy access to unelectrified population, allowing to electrify 32 million households.
The World Bank (WB) is supporting Pakistan’s energy sector through “Pakistan Sustainable Energy Program” which includes this project to assist the Government in identifying solutions to achieve universal energy access in Pakistan.
The organizations involved in this project will use the Reference Electrification Model (REM) and the Village Data Analytics (VIDA) for the LCES and mini-grid portfolio assessment respectively. The chosen model and analytical tool have been successfully used for similar activities worldwide.
The Least-Cost Electrification Study (LCES) shall include:
(i) Geospatial analysis (grid and off-grid) - The detailed geospatial analysis will consider, based on good practice and international experience, possible least-cost options for electrification, provide a sound strategic basis to implement systematically staged grid extensions and the deployment of off-grid technologies (mini-grids and standalone systems) powered by cost-effective renewable energy solutions where appropriate.
(ii) Recommendations for implementation – Recommendations on policies, actions and investments needed to achieve the goal of universal electricity access by 2030, including proposed intermediate targets, corresponding investment financing frameworks, an action plan to address the enabling policy and institutional framework, and capacity strengthening initiatives for key sector institutions and agencies involved.
The Mini-Grid Portfolio Assessment shall support mini-grid pipeline development to assist the World Bank in conducting its due diligence on a potential mini-grid investment operation and provide useful evidence and data to sector agencies and stakeholders. | | | | * | Abbreviated name: | HAITI-PAUNE | | Project title: | Haiti National electrification analysis - Consultancy services for the assessment of electrification options | | Funding entity: | World Bank (WB) | | Start date: | August 2022 | | End date: | April 2024 | | Researcher(s): | Rafael Palacios Hielscher, Andrés González García, José Ignacio Pérez Arriaga, Michel Rivier Abbad, Hagos Meresa Weldu | | Description: | Following the Government of Haiti’s request for advisory services, the World Bank appointed Comillas and Waya Energy, with the collaboration of Trama TecnoAmbiental TTA and Castalia, to undertake a National Electrification Analysis (NEA) of Universal Electricity Access Options in Haiti. The objective of the NEA is to provide analysis and insight on various power supply modes options (grid extension, mini grids, standalone systems, meshed grids...) which the World Bank may use to assist in providing advisory services to the Government of Haiti for the preparation of a National Electrification Strategy (NES).
The World Bank is responsible for undertaking the NEA with funding from Policy Dialogue funds and Energy Sector Management Assistance Program (ESMAP). The NEA is designed to help the World Bank to deliver integrated and flexible advisory services to the Government so as to build its capacity to achieve sector development targets.
The scope of work encompasses the following tasks: (a) identify, review and analyze output (e.g., reports, data) of previous efforts supporting electrification planning in the country, several of which have strong synergies with related sectors including water, health, education, ICT; (b) assess the robustness of existing material and highlight gaps, updates or modifications required c) actively support any additional analysis require to develop a geospatial least cost electrification plan and (d) identify potential options and arrangements for scaling up electrification in Haiti in line with national access targets.
This work will produce an analysis of the electricity services and options that could be provided based on the information shared by the Government and other sector stakeholders to assist the World Bank in providing advisory services to the Government. Any further detailed site-specific analysis will be conducted by the designated country agencies if, and when, the decision to undertake electrification projects is made. It is those site-specific analyses, and not the World Bank’s NEA, that will determine specific vulnerability, risk and mitigation actions associated with different modes of electricity supply. | | | |
- 2.1.3 Services and analysis projects
- 2.1.3.1 Private funding
- 2.1.3.2 Public funding
- 2.2 Publications
- 2.2.1 Books
- 2.2.2 Chapters in books
- 2.2.3 Papers in Journals
* | Author(s): | C. Álvarez-Romero, A. Polo-Molina, E.F. Sánchez-Úbeda, C. Jiménez-de-Juan, M.P. Cuadri-Benitez, J.A. Rivas-González, J. Portela, R. Palacios, C. Rodríguez-Morcillo, A. Muñoz, C.L. Parra-Calderón, M.D. Nieto-Martin, M. Ollero-Baturone, C. Hernández-Quiles | | Title: | Machine learning–based prediction of changes in the clinical condition of patients with complex chronic diseases: 2-phase pilot prospective single-center observational study | | Journal: | JMIR Formative Research | | Vol & Num: | vol. 8, nº. 1 | | Pages: | e52344-1-e52344-13 | | ISSN: | 2561-326X | | Publication date: | April 2024/December 2024 | | | |
- 2.2.4 Papers in Congress
* | Author(s): | I. Gutiérrez, G. López, R. Gesteira-Miñarro, R. Palacios | | Title: | Plataforma de demostración para ataques extremo a extremo de dispositivos con interfaz OBD-II | | Type: | Poster | | Congress: | IX Jornadas Nacionales de Investigación en Ciberseguridad - JNIC 2024 | | City: | Seville | | Country: | Spain | | Date: | 27-29 May 2024 | | ISBN: | 978-84-09-62140-8 | | | | * | Author(s): | J. Jarauta Gastelu, R. Gesteira-Miñarro, J. Matanza, R. Palacios, G. López | | Title: | Ataque MitM a puntos de recarga AC | | Type: | Communication | | Congress: | IX Jornadas Nacionales de Investigación en Ciberseguridad - JNIC 2024 | | City: | Seville | | Country: | Spain | | Date: | 27-29 May 2024 | | ISBN: | 978-84-09-62140-8 | | | | * | Author(s): | A.M. López Gómez, J.A. Rodríguez-Mondéjar, G. López, J. Mohedano, A. Valencia, J. Jarauta Sanchez, A. Carrasco, R. Palacios, R. Gesteira-Miñarro | | Title: | Integración de un laboratorio de ciberseguridad OT en un laboratorio de automatización industrial | | Type: | Communication | | Congress: | IX Jornadas Nacionales de Investigación en Ciberseguridad - JNIC 2024 | | City: | Seville | | Country: | Spain | | Date: | 27-29 May 2024 | | ISBN: | 978-84-09-62140-8 | | | | * | Author(s): | C. Palacios-Castrillo, R. Palacios, R. Gesteira-Miñarro, G. López | | Title: | Análisis de seguridad y privacidad de asistentes personales con voces reales y voces sintéticas | | Type: | Communication | | Congress: | IX Jornadas Nacionales de Investigación en Ciberseguridad - JNIC 2024 | | City: | Seville | | Country: | Spain | | Date: | 27-29 May 2024 | | ISBN: | 978-84-09-62140-8 | | | |
- 2.2.5 IIT Technical Documents
- 2.2.6 Other Publications
* | Author(s): | M.A. Sanz-Bobi, C. Mateo, R. Palacios, G.L. Rajora, et al. | | Type: | Technical report | | Title: | Results in brief. A modular open-source toolbox to streamline energy system operation and planning | | Organizer: | Comisión Europea | | City: | Madrid | | Country: | Spain | | Date: | January 2024 | | More information: | Proyecto: ATTEST | | | |
- 2.3 Software Products
Chapter 3. Teaching [ | ]- 3.1 Supervised Bachelor Theses at IIT
- 3.1.1 Bachelor's Degree in Engineering for Industrial Technologies
- 3.1.2 Bachelor's Degree in Engineering in Telecommunications Technologies
* | Title: | Análisis de protocolos de comunicación en vehículos con sistemas Passive Keyless Entry and Start | | Author: | Fernández García, Arturo | | Supervisor(s): | Rafael Palacios Hielscher | | | |
- 3.2 Postgraduate Teaching
- 3.2.1 Master Courses
- 3.2.1.1 Official Master's Degree in Industrial Engineering (MII)
- 3.2.1.2 Official Master's Degree in Telecommunications Engineering (MIT)
- 3.2.1.3 Official Master's Degree in the Electric Power Industry (MEPI)
- 3.2.1.4 Master in Railway Systems (MSF)
- 3.2.1.5 Master in Project, Construction and Maintenance of High Voltage Electrical Transmission (On-line)
- 3.2.1.6 Master in Fire Protection Engineering (MIPCI)
- 3.2.1.7 MBA in the Global Energy Industry
- 3.2.1.8 Master's Degree in Smart Industry (MIC)
- 3.2.1.9 Master’s Degree in International Industrial Project Management
- 3.2.1.10 Master in Electricity Generation. Promotion, Technology and Operation (MGE) (On-line)
- 3.2.1.11 Master's Degree in Big Data Technologies and Advanced Analytics (MBD)
- 3.2.1.12 Master's Degree in Management Solutions (MCN)
- 3.2.1.13 Master's Degree in Smart Grids (MSG)
- 3.2.1.14 Master in Biomechanics Applied to Damage Assessment; Advanced Physical Therapy Techniques
- 3.2.1.15 Master in Mobility and Safety Engineering (MMS)
- 3.2.1.16 Master in Electrical Technology (MTE)
- 3.2.1.16 Master in smart agricultural industry and sustainability
- 3.2.1.17 Official Master's Degree in Biomechanics and Sports Physiotherapy
- 3.2.2 Master Theses supervised at IIT
- 3.2.2.1 Official Master's Degree in Industrial Engineering (MII)
* | Title: | Modelos de Detección en Tiempo Real de Modos de Conducción y Estrategias de Pitstop eCarreras de Fórmula 1 | | Author: | Urquidi Castro, Ana | | Supervisor(s): | Rafael Palacios Hielscher | | | |
- 3.2.2.2 Official Master's Degree in Telecommunications Engineering (MIT)
* | Title: | Human or AI? Plataforma web gamificada para estudiar el problema de distinguir entre voces reales y sintéticas en base a datos | | Author: | Chávez Macías, Alejandro | | Supervisor(s): | Gregorio Ignacio López López, Rafael Palacios Hielscher | | | |
- 3.2.2.3 Official Master's Degree in the Electric Power Industry (MEPI)
- 3.2.2.4 Erasmus Mundus International Master in Economics and Management of Network Industries (EMIN)
- 3.2.2.5 Master in Railway Systems (MSF)
- 3.2.2.6 MBA in the Global Energy Industry
- 3.2.2.7 Master in Fire Protection Engineering (MIPCI)
- 3.2.2.8 Master's Degree in Smart Industry (MIC)
- 3.2.2.9 Master’s Degree in International Industrial Project Management
- 3.2.2.10 Master's Degree in Big Data Technologies and Advanced Analytics (MBD)
- 3.2.2.11 Master in Electricity Generation. Promotion, Technology and Operation (MGE) (On-line)
- 3.2.2.12 Master's Degree in Management Solutions (MCN)
- 3.2.2.13 Master in Project, Construction and Maintenance of High Voltage Electrical Transmission (On-line)
- 3.2.2.15 Official Master's Degree in Engineering Research (MIMSI)
- 3.2.2.16 Master's Degree in Smart Grids (MSG)
- 3.2.2.17 Master in Biomechanics Applied to Damage Assessment; Advanced Physical Therapy Techniques
- 3.2.2.18 Master in Mobility and Safety Engineering (MMS)
- 3.2.2.19 Master in Electrical Technology (MTE)
- 3.2.2.20 Official Master's Degree in Biomechanics and Sports Physiotherapy
- 3.2.2.21 Master in Environment and Energy Transition
- 3.3 Other Academic Activities
- 3.3.1 External Master Courses
- 3.3.2 Supervised Master Theses in other Universities
- 3.3.3 Developed Master Theses in other Universities
Chapter 4. Doctorate [ | ]- 4.1 ICAI Engineers' Association PhD Scholarship
- 4.2 Training complements
- 4.3 Training activities
- 4.4 Doctoral Theses
- 4.4.1 Comillas Submitted Theses
- 4.4.2 Submitted Theses in other Universities
- 4.4.3 Comillas Ongoing Theses
* | Title: | Detección de Ciberataques mediante algoritmos de aprendizaje y clasificación en la matriz de MITRE ATT&CK | | Author: | Antonio Pérez Sánchez | | Supervisor(s): | Rafael Palacios Hielscher and Gregorio López López | | | | * | Title: | Analysis of cybersecurity systems in the automotive sector | | Author: | Roberto Gesteira Miñarro | | Supervisor(s): | Gregorio López López and Rafael Palacios Hielscher | | | |
Chapter 5. Other Activities [ | ]- 5.1 EES-UETP
- 5.2 International Exchanges
* | Name: | Rafael Palacios Hielscher | | Department: | CAMS - Cybersecurity at MIT Sloan | | University: | Massachusetts Institute of Technology (MIT) | | City: | Cambridge | | Country: | United States of America | | Period of stay: | August 2024-July 2025 | | Otra información: | | | | |
- 5.3 Visiting professors
- 5.4 Visiting students
- 5.5 Courses offered and coordinated to external companies and institutions
* | Lecturer(s): | Luis Olmos Camacho, Luis Rouco Rodríguez, Rafael Palacios Hielscher | | Course title: | Coordination of the course committee of the EES-UETP network during the year 2023 | | Funding entity: | Electric Energy Systems - University Enterprise Training Partnership Association (EES-UETP) | | Date: | January-December 2023 | | | | * | Lecturer(s): | Luis Olmos Camacho, Luis Rouco Rodríguez, Rafael Palacios Hielscher | | Course title: | Coordination of the course committee of the EES-UETP network during the year 2024 | | Funding entity: | Electric Energy Systems - University Enterprise Training Partnership Association (EES-UETP) | | Date: | January-December 2024 | | | |
- 5.6 Conferences, Seminars, Roundtables and Workshops Contributions
- 5.7 Congress, Seminars and Journals Organization
- 5.8 Other Academic Activities Organization
- 5.9 Other Activities
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