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ID: 64492
Title: Hyperspectral data for earth monitoring
Author: Nibedita Mohanta
Editor: Sanjay Kumar
Year: 2023
Publisher: Sanjay Kumar
Source: ENVIS, CES & EWRG, CES
Reference: Geospatial Artha Volume 01 Issue 5 22-24 (2023)
Subject: Hyperspectral data for earth monitoring
Keywords: Hyperspectral data, Earth monitoring
Abstract: Founded in 2019, Indian space startup Pixel is building a constellation of hyperspectral imaging satellites and aims to become the pioneer of Earth monitoring .Awais Ahmed, the founder, was part of the SpaceX team in 2017 and built India's first Hyperloop Pod for the SpaceX Hyperloop Pad competition. This inspired him to work in the space sector.
Location: T E 15 New Biology building
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ID: 64491
Title: Indian geospatial sector key trends and market drivers
Author: Jeffy Jacob and Sachin Awana
Editor: Sanjay Kumar
Year: 2023
Publisher: Sanjay Kumar
Source: ENVIS, CES & EWRG, CES
Reference: Geospatial Artha Volume 01 Issue 5 12-14 (2023)
Subject: Indian geospatial sector key trends and market drivers
Keywords: Indian geospatial Sector, Market drivers
Abstract: Over the last three years, India's geospatial market has registered a significant growth-hitting 28 thousand crores INR in 2019. The sector has the potential to contribute substantially to generating employment, creating knowledge, and escalating socio-economic progress of the nation. Furthermore, the prospect of integrating geospatial technologies with emerging technologies such as AI, ML, and IoT gives on outlook for the industry that is promising to say the least.
Location: T E 15 New Biology building
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ID: 64490
Title: A New Start national geospatial policy
Author: Sachin Awana
Editor: Sanjay Kumar
Year: 2023
Publisher: Sanjay Kumar
Source: ENVIS, CES & EWRG, CES
Reference: Geospatial Artha Volume 01 Issue 5 10-11 (2023)
Subject: A New Start national geospatial policy
Keywords: National geospatial Policy
Abstract: The Indian government recently notified the much-awaited National geospatial Policy 2022, which envisions transforming the Indian geospatial industry through a mix of resilience, dynamism, and cutting-edge innovation. As a part of an ambitious plan, the government aims to develop a standard framework that will enhance the efficiency of implementing the data in everyday lives of people around the country. This comes at the most opportune time when India's geospatial economy is expected to grow at 12.8% and cross Rs 63,000 crore by 2025.
Location: T E 15 New Biology building
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ID: 64489
Title: Capacity building for professionals
Author: - (Case study)
Editor: Sanjay Kumar
Year: 2023
Publisher: Sanjay Kumar
Source: ENVIS, CES & EWRG, CES
Reference: Geospatial Artha Volume 02 Issue 2 50-50 (2023)
Subject: Capacity building for professionals
Keywords: Capacity building, Professionals
Abstract: The Geospatial capacity -building initiative was aimed at empowering cross-sectoral Indian professionals with the right geospatial data, tools, products, and services. It was designed and implemented by the National Geospatial Program (NGP) of the Department of Science and Technology of Science and Technology (DST), Government of India, in collaboration with the project Management Unit (PMU) at the Bharati Vidyapeeth Deemed University, Institute of Environment Education and Research, Pune (BVIEER)
Location: T E 15 New Biology building
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ID: 64488
Title: Geospatial data for sustainable agro management
Author: -(Case study)
Editor: Sanjay Kumar
Year: 2023
Publisher: Sanjay Kumar
Source: ENVIS, CES & EWRG, CES
Reference: Geospatial Artha Volume 02 Issue 2 49-49 (2023)
Subject: Geospatial data for sustainable agro management
Keywords: Geospatial data, Sustainable Agro Management
Abstract: The Agro-Climatic planning and information bank (APIB) was created with agriculture reform through new technology being need of the hour. Space and geospatial technologies can aid information and communication technology to help establish agricultural management systems for efficient and sustainable agricultural planning.
Location: T E 15 New Biology building
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ID: 64487
Title: Leveraging marine geospatial data for coastal areas
Author: - (Case study)
Editor: Sanjay Kumar
Year: 2023
Publisher: Sanjay Kumar
Source: ENVIS, CES & EWRG, CES
Reference: Geospatial Artha Volume 02 Issue 2 48-48 (2023)
Subject: Leveraging marine geospatial data for coastal areas
Keywords: Leveraging marine, geospatial data, coastal areas
Abstract: Coastal and marine spatial data serve as wheels that drive the blue economy and open new doors for investment, revealing new insights about the coastal ecosystem. For more than two decades, the National Centre for Coastal Research (NCCR) under the Ministry of Earth Sciences, Chennai, has been collecting, collating, and analyzing marine geospatial data for the benefit of the society and environment.
Location: T E 15 New Biology building
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ID: 64486
Title: Hazard risk mapping for disaster prone areas
Author: - (Case study)
Editor: Sanjay Kumar
Year: 2023
Publisher: Sanjay Kumar
Source: ENVIS, CES & EWRG, CES
Reference: Geospatial Artha Volume 02 Issue 2 47-47 (2023)
Subject: Hazard risk mapping for disaster prone areas
Keywords: Hazard, Mapping, Disaster prone areas
Abstract: Climate change, uncertainty and associated risks are prominent at present and likely to be more profound in future scenarios. The two most notorious climate change impacts, i.e., flood and heatwave, happen due to extreme rainfall or temperature. Flood-related disaster risk in Uttarakhand flood 2013 and extreme heat-related risk in NCT Delhi in 2001 and 2017, caused severe damage through infrastructural reparations, economic and life loss, ultimately hindering the nation's growth.
Location: T E 15 New Biology building
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ID: 64485
Title: Mitigating GHG emissions using Geo Data
Author: -(Case study)
Editor: Sanjay Kumar
Year: 2023
Publisher: Sanjay Kumar
Source: ENVIS, CES & EWRG, CES
Reference: Geospatial Artha Volume 02 Issue 2 46-46 (2023)
Subject: Mitigating GHG emissions using Geo Data
Keywords: GHG emissions, Geo Data
Abstract: For over a decade, Google Geo has helped NGOs, scientists, academicians, researchers, and communities understand the earth better. With the increasing availability of data, Google's vision is to leverage Geo's understanding of climate data to catalyse social and environmental change at scale toward building sustainable cities and communities.
Location: T E 15 New Biology building
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ID: 64484
Title: Geospatial for sustainable forest management
Author: - (Case study)
Editor: Sanjay Kumar
Year: 2023
Publisher: Sanjay Kumar
Source: ENVIS, CES & EWRG, CES
Reference: Geospatial Artha Volume 02 Issue 2 45-45 (2023)
Subject: Geospatial for sustainable forest management
Keywords: Geospatial, sustainable forest management
Abstract: In India, one-in-four people directly rely on forest s for sustenance. However, more than 40% of forests in the country are facing degradation and depletion of resources such as quality of air, soil and water. The flow of forest products and services for equitable economic growth is very important. In response to this, the Ministry of Environment, Forest and Climate Change (MoEFCC), Government of Indi and the U.S. Agency for international Development (USAID) have partnered for a five-year initiative-the Forest PLUS 2.0 Programme. The program focuses on developing the tools and techniques to encourage sustainable forest landscape management.
Location: T E 15 New Biology building
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ID: 64483
Title: Transforming unstructured dat into actionable insights
Author: Atanu Sinha
Editor: Sanjay Kumar
Year: 2023
Publisher: Sanjay Kumar
Source: ENVIS, CES & EWRG, CES
Reference: Geospatial Artha Volume 02 Issue 2 26-29 (2023)
Subject: Transforming unstructured dat into actionable insights
Keywords: Transforming unstructured data
Abstract: The overwhelming deluge of structured and unstructured reports flooding intelligence agencies and defence organizations include critical local-based information, making processing and analysis an enormous and time-consuming task, often resulting in missed vital data points. An innovative approach and solution are necessary to act as a decision support system, capable of efficiently reading, comprehending defence-specific terminology, acronyms, and jargon, and performing change detection, temporal, and predictive analysis.
Location: T E 15 New Biology building
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ID: 64482
Title: Boundless Geo possibilities turning point-fourth industrial revolution
Author: Aswani Akella
Editor: Sanjay Kumar
Year: 2023
Publisher: Sanjay Kumar
Source: ENVIS, CES & EWRG, CES
Reference: Geospatial Artha Volume 02 Issue 2 22-25 (2023)
Subject: Boundless Geo possibilities turning point-fourth industrial revolution
Keywords: Boundless Geo possibilities, fourth industrial revolution
Abstract: Introduced i n2015, the phrase "Fourth industrial revolution (4IR) ", coined by Prof Klaus Schwab caught the attention of world by storm. Eight years later, while the big picture is yet to emerge, sketchy contours visible so far seem to be asserting "a lot can happen". Touted as an opportunity to create a human centered future, 4IR looks beyond convergence of technologies to find ways for creating a positive impact that is inclusive and sustainable.
Location: T E 15 New Biology building
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ID: 64481
Title: Recouping farmers loss
Author: Jeffy Jacob
Editor: Sanjay Kumar
Year: 2023
Publisher: Sanjay Kumar
Source: ENVIS, CES & EWRG, CES
Reference: Geospatial Artha Volume 02 Issue 2 10-12 (2023)
Subject: Recouping farmers loss
Keywords: Recouping, farmers loss
Abstract: Indian farmers are greatly dependent on the vagaries of nature. Any calamity adversely affects their finances. With over 58 % of the population engaged in agriculture, securing farmers' income and insuring them against seasonal crop losses is key priority as well as a social need. Farmers deal with a great deal of uncertainty at all stages of cultivation. Crop insurance, aided by technology solutions, help them manage weather-related risks and forestall heavy losses.
Location: T E 15 New Biology building
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ID: 64480
Title: Sustainable Transport indicators and mitigation actions applied to the green bond principles.
Author: Tassia Faria de Assis, Lorena Mirela Ricci,Thais Guedes Maximo Monteiro,Victor Hugo Souza de Abreu, Marcio de Almeida D' Agosto and Andrea Souza Santos
Editor: Subramanian Senthilkannan Muthu
Year: 2022
Publisher: Springer
Source: ENVIS, CES & EWRG, CES
Reference: Carbon footprints of Manufacturing and Transportation industries, 139-169 (2022)
Subject: Sustainable Transport indicators and mitigation actions applied to the green bond principles.
Keywords: Climate change, Green bonds, transport sector, sustainable transport indicators, Mitigation actions
Abstract: With the increase in the need for actions related to slowing down the advancement of climate change impacts, aligned with the call for a more sustainable development through the United Nations Sustainable Development Goals, the assurance of ways to mitigate and assess the impact of human activities, such as transportation, is much needed. Over the years, frameworks that enable the implementation of sustainable development have been developed, like the Green Bonds, but to evaluate the applicability of mitigation actions related to the Green Bonds, and to precisely measure mitigation actions, indicators are used as reliable sources of information. Thus, this study aims to map, through a review of the literature, mitigation actions and the respective indicators that are, directly or indirectly, related to the Green Bond Principles, pertaining to the tans portion sector. The mitigation actions and indicators may serve as a guide for the decision-makers, both in the public and private sectors, to assure the application of the Green Bond Principles and sustainability in the transportation sector.
Location: T E 15 New Biology building
Literature cited 1: ACM-ASEAN Capita Markets Forum (2018) ASEAN Green Bond standards. Available at http://www.theacmf.org/initiatives/sustainable.finance/asean-green-bond-standards.Acce3ssed 3 Feb 2020. AEA. Associacao Brasileira de Engenharia Automotiva (2020) AEA vehicle material. Disposa Booklet. Available at htttps://aea.org.br/inicio/wp-content/uploads/2020/12/CarilhaDestinacaFinalAEA-EN.pdf.
Literature cited 2: Aguilar Esteva LC, Kasliwal A, Kinzler MS, Kim HC, Keoleian GA (2021) Circular economy framework for automobiles: Closing energy and material loops.J Ind Ecol 25(4) :877-889.https://doi.org/10.1111/jiec.13088. Ali L, Nawaz A, Iqbal S, Aamir Basheer M, Hameed J, Albasher G, Shah SAR, Bai Y (2021) Dynamics of transit-oriented development, role of greenhouse gases and urban environment: a study for management and policy. Sustainability 13: 2356.https://doi.org/10.3390/su1305 2536.

ID: 64479
Title: Life Cycle Assessment and Circular Economy Strategies for Electric Vehicle: Systematic Review on Mitigating Climate Change and Reducing Resource Depletion in Road Transportation
Author: Mariane Gonzalez da Costa,Victror Hugo Souza de Abreu,Tassia Faria de Assis,Valeria Xavier da Costa, Marcio de Almeida D' Agosto, and Andrea Souza Santos
Editor: Subramanian Senthilkannan Muthu
Year: 2022
Publisher: Springer
Source: ENVIS, CES & EWRG, CES
Reference: Carbon footprints of Manufacturing and Transportation industries, 113-137 (2022)
Subject: Life Cycle Assessment and Circular Economy Strategies for Electric Vehicle: Systematic Review on Mitigating Climate Change and Reducing Resource Depletion in Road Transportation
Keywords: Road transportation, Electric vehicles, Life cycle assessment, Circular economy, Framework and systematic literature review
Abstract: Electric vehicles (EVs) have the potential to reduce greenhouse gas (GHG) emissions as well as limit other local pollutants that negatively impact the health of the urban population. The compete life cycle of EVs needs to be better evaluated to avoid natural resource depletion while nullifying end-use emissions in order to meet climate goals. Thus, to face the challenges of resource use and the effective implementation of strategies to reduce the negative externalities of this process, it is necessary to focus on the end-of-life (EoL) management of these vehicles by applying strategies based on Circular Economy (CE) concepts. Based on systematic literature revie through a bibliometric approach, the proposed chapter sought to identify the points of synergy between Life Cycle Assessment (LCA) and CE strategies to reduce the carbon footprint of EVs, with a focus on battery electric vehicles (BEVs) After analyzing 54 articles from the Web of Science and Scopus databases that met quality and applicability criteria, a framework of the relationship between LCA stages and CE strategies for transportation systems was developed , highlighting opportunities and challenges for each CE stage and the life cycle of EV, consolidating the contribution of this research.
Location: T E 15 New Biology building
Literature cited 1: Aguilar Esteva LC, Kasliwal A, Kinzler MS, Kim HC, Keoleian GA (2021) Circular economy framework for automobiles: closing energy and material loops.J Ind Ecol 25(4) :877-889, https://doi.org/10.1111/jiec.13088. Ahmadi L., Young SB, Fowler M, Fraser R, Achachlouei MA (2017) A cascaded life cycle: reuse of electric vehicle lithium-ion battery pack in energy storage systems. Int. J Life Cycle Assess 22 (1): 111-124.https://doi.org/10.1007/s11367-015-0959-7
Literature cited 2: Alamerew YA, Brissaud D (2020) Modelling reverse supply chain through system dynamics for realizing the transition towards the circular economy: a case study on electric vehicle batteries. J Clean Prod 254:120025. https://doi.org/10.1016/jclepro.2020.120025. Albuquerque TLM, Mattos CA, Scur G, Kissimoto K (2019) Lie Cycle costing and externalities to analyze circular economy strategy: comparison between aluminum packaging and tinplate.J Clen Prod. https://doi.org/10.1016/j.jclepro.2019.06.091.

ID: 64478
Title: Evaluation of carbon footprint of the revolution of Urban spaces
Author: Maria Rocio Ruiz-Perez, Cristina Rivero-Camacho, M Desiree Alba -Rodriguez and Madelyn Marrero
Editor: Subramanian Senthilkannan Muthu
Year: 2022
Publisher: Springer
Source: ENVIS, CES & EWRG, CES
Reference: Carbon footprints of Manufacturing and Transportation industries, 79-111 (2022)
Subject: Evaluation of carbon footprint of the revolution of Urban spaces
Keywords: Carbon footprint in urbanisation, Sustainable urban systems, Construction cost database, Cost control, Project budget, Urban renewal
Abstract: This publication presents a methodology for the evaluation of the carbon footprint of urban renewal projects. New models of architecture and urban environments that are replicated in many parts of the world are notable for the inclusion plants and trees of all sizes and functions, which can absorb tons of CO2 and pollutnatnts annually and produce oxygen. With the methodology developed in the present work, it is possible to analyze the amortisation period of these urban environments in terms of their carbon footprint by considering the reduction of the impact that is achieved with the increase of landscaped areas. Moreover, the carbon footprint of the construction process from the cradle to the grave can be determined as its indirect footprint. The street renewal has incorporated water -sensitive criteria, with the construction of five green areas, and of roads and pavements. The methodology identifies changes in garden designs, soil drainage, and rainwater-collection systems in terms of carbon footprint. The carbon footprint results from the execution of the work and the carbon sequestration by vegetation in year, whereby differences are detected between scenarios. Materials and systems can be ranked according to their impact. The indirect footprint increases by factor of 2.6 in comparison with that of a project without new green areas. However, in the long run, it is possible to triple the carbon capture capacity and the halve the direct footprint during the use phase. This balance implies, at the ended of life cycle, that the carbon footprint has been reduced by 75%.
Location: T E 15 New Biology building
Literature cited 1: Alba-Rodriguez D, Marrero-Melendez M, Solfs-Guzman J (Nov 2013) Economic and environmental viability of building recovery in Seville (Spain) Phase 1: database in Arcgis. Cathedra Chair of Housing Environmental. Faculty of Architecture Cracow University of Technology, pp 297-302. Alba-Rodriguez MD, Martinez-Racamora A, Gonzalez-Vallejo P, Ferreira-Sanchez A; Marrero M (2017) Building rehabilitation versus demolition and new construction: economic and environmental assessment. Environ Impact Assess Rev 66:115-126.https://doi.org/10.1016/j.eiar.2017.06.002
Literature cited 2: Bare JC, Hofsetter P, Pennington DW, Haes HAU (2000) Midpoints versus endpoints: the sacrifices and benefits. Int J Life Cycle Assess 5(6):319-326 https://doi.org/10.1007/BF0297 8665. BREEAM (2017) BREEAM international new construction, technical manual, version:SD233, issue 1.0