The Centre for Internet and Society
https://cis-india.org
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The Government needs to make sure our emails don't destroy the environment
https://cis-india.org/internet-governance/blog/the-government-needs-to-make-sure-our-emails-dont-destroy-the-environment
<b>The Government's data centre policy must be more reflective of energy requirements and sustainable practices to effectively ensure that India's growing digital user base doesn't hurt the environment. </b>
<p dir="ltr"> </p>
<p dir="ltr">Ask people to name the first things they think of when you say climate change and you can expect a few standard answers. Polar bears on shrinking ice caps, cities suffocated from car exhaust fumes and mass deforestation are all surely to be somewhere on the list of responses. What you probably won’t find, however, is people discussing their social media. Or their email. Or any piece of the immeasurable amount of data that we produce on the internet on a daily basis. Yet all of this data is far from green, and is substantially increasing our carbon footprint. So the question arises, how is our data contributing to climate change, and what can policy makers do about it? </p>
<p>There is a tendency to focus on the turnover of hardware when discussing the climate impact of digital technology. And while this is an important element of the sector’s impact, it is essential that policymakers also recognise the impact of intangible elements of the digital ecosystem - such as data. Every piece of data that is created or transmitted across the internet has an environmental cost. That cost being the energy required (and by extension the fossil fuel amount used) to operate the technology that hosts and transports the data. </p>
<p>Admittedly, the environmental impact and cost of one person checking their instagram or even reading this article is quite low. But aggregated across the estimated number of internet users in the <a href="https://www.tvtechnology.com/news/global-digital-population-grows-to-48b-in-2020">world</a>, digital technologies are estimated to be responsible for <a href="https://www.bbc.com/future/article/20200305-why-your-internet-habits-are-not-as-clean-as-you-think#:~:text=If%20we%20were%20to%20rather,of%20carbon%20dioxide%20a%20year.">1.7 billion tonnes of greenhouse gases</a> - which is about 4% of the global greenhouse gas production and roughly how much is produced by the global airline industry.</p>
<p>Another key element of data’s environmental impact is the establishment and operation of data centres. Data centres are establishments that house computing and ICT equipment. These centres are critical infrastructure components to the functioning of the internet and are used to store an immense volume of data. As the number of data centres has <a href="https://www.datacenterknowledge.com/industry-perspectives/data-center-dilemma-our-data-destroying-environment">exploded over the last decade</a>, they have come to account for 1% all global greenhouse gas production on their own, and are expected to contribute to <a href="https://www.computerworld.com/article/3431148/why-data-centres-are-the-new-frontier-in-the-fight-against-climate-change.html">14% of all emissions by 2040</a>.<br /><br /></p>
<h3>India’s growing data centre problem </h3>
<p><br />As the number of Internet users in India <a href="https://www.livemint.com/industry/media/india-s-active-internet-user-base-to-hit-639-mn-by-year-end-11588879564767.html">grows</a> at an exponential rate, it is imperative that the government take a proactive approach to creating sustainable infrastructure that can meet the ICT demands of the population. </p>
<p>Recently, the Ministry of Electronics and Information technology, released its draft policy on data centres. The policy outlined the government’s aim at establishing a large number of domestic data centres that will be used to store all data created within the country. The government’s policy envisions India as being one of the world leaders in data centre establishment and operation - on a par with countries such as <a href="https://www.eco-business.com/news/the-future-of-data-centres-in-the-face-of-climate-change/">Singapore who now hold that mantle</a>. </p>
<p>However, despite presenting this grand vision, the policy provides no specifics on how it plans to cope with the environmental stress that these new centres would bring. The policy states that ensuring uninterrupted power to these centres will be a key priority of the government - a burden that would be far beyond the capacity of current renewable energy sources in the country. Taking the example of Singapore, almost <a href="https://www.eco-business.com/news/the-future-of-data-centres-in-the-face-of-climate-change/">7% of all electricity consumption</a> in the country was from data centres. Such proportionate consumption by Indian data centres would realistically only be possible through an expanded use of fossil fuel generated electricity. </p>
<p dir="ltr">To give the policy some credit, it does mention ‘encouraging’ the use of renewable energy for data centres but fails to mention any specific schemes or measures to ensure renewable energy investment and growth is enough to keep up with growing data centre energy demands. <br /><br /></p>
<h3>What can policy makers do? </h3>
<p><br />The question arises, how can policy makers make data centres more sustainable? Is there any way of reducing the energy consumption of these data centres? </p>
<p>In short, not really right now. It has been estimated that <a href="https://www.computerworld.com/article/3431148/why-data-centres-are-the-new-frontier-in-the-fight-against-climate-change.html">40% of total energy consumption by data centres is used in cooling</a>. And while there is the possibility that building these data centres in cooler environments would reduce these costs - converting shimla, coorg, ooty and other cool weathered hill stations into monuments of data centre infrastructure does not seem particularly practical. And so short of investing heavily into research and development for the future and conforming to global standards of data centre operation, there is not much the government can do now outside of focusing on the source of the energy that is used by these centres. </p>
<p>Keeping this in mind, the first step in evolving India’s data infrastructure has to be investing in and developing clear schemes for promoting renewable energy in the country. While India has seen positive growth in renewable energy infrastructure, it would require substantial private and public investment in order to meet its target of <a href="https://energy.economictimes.indiatimes.com/news/renewable/opinion-is-indias-renewable-energy-investment-on-track/76229607">450 GW of renewable energy by 2021</a>. Widespread development of data centres would only further stress India’s energy needs and would therefore require a commensurate increase in the amount of renewable energy available. As such it is imperative that the state not stick to vague statements of ‘encouraging renewable energy’ or ‘collaborating between ministries’ and rather adopt a revised policy for developing renewable energy for digital infrastructure. </p>
<p> Such a step would ensure the sustainability of the country’s digital infrastructure, and ensure that every Indian has access to both clean air and their email. </p>
<p>
For more details visit <a href='https://cis-india.org/internet-governance/blog/the-government-needs-to-make-sure-our-emails-dont-destroy-the-environment'>https://cis-india.org/internet-governance/blog/the-government-needs-to-make-sure-our-emails-dont-destroy-the-environment</a>
</p>
No publisheramanClimate changeEnvironmental ImpactEnvironmentData GovernanceData CentresData Management2021-01-25T14:17:29ZBlog EntryOn World Water Day - Open Data for Water Resources
https://cis-india.org/openness/on-world-water-day-open-data-for-water-resources
<b>Lack of open data for researchers and activists is a key barrier against ensuring access to water and planning for sustainable management of water resources. In a collaboration between DataMeet and CIS, supported by Arghyam, we are exploring the early steps for making open data and tools to plan for water resources accessible to all. To celebrate the World Water Day 2018, we are sharing what we have been working on in the past few months - a paper on open data for water studies in India, and a web app to make open water data easily explorable and usable. Craig Dsouza led this collaboration, and authored this post.</b>
<p> </p>
<h4>Project Blog: <a href="https://datameet-pune.github.io/open-water-data/" target="_blank">Open Water Data
for Integrated Water Science</a> (External)</h4>
<h4>Open Water Data Paper - Datasets for Water Studies in India Blog - Summary: <a href="https://datameet-pune.github.io/open-water-data/precipitation/2017/12/31/OWD-Paper/" target="_blank">Read</a> (External)</h4>
<h4>Open Water Data Paper - Datasets for Water Studies in India Blog - Full Paper: <a href="https://datameet-pune.github.io/open-water-data/docs/open-water-data-paper.pdf" target="_blank">Read</a> (PDF)</h4>
<h4>Open Water Data Web App: <a href="https://water-data-web-app.appspot.com/" target="_blank">View</a> (External)</h4>
<h4>Open Water Data Web App - Tech Stack: <a href="https://datameet-pune.github.io/open-water-data/tech/2017/12/08/OWD-Web-App-Tech-Stack/" target="_blank">Read</a> (External)</h4>
<h4>Open Water Data Web App - Precipitation Data: <a href="https://datameet-pune.github.io/open-water-data/precipitation/2018/01/05/OWD-Web-App-Precipitation-Data/" target="_blank">Read</a> (External)</h4>
<hr />
<p>The 22nd of March is celebrated internationally as World Water Day. Water is so tightly intertwined in every aspect of our lives that one can only scratch the surface in understanding this resource. Besides directly giving us life, it is a key non-renewable shared resource that dictates whether and how societies can grow and prosper. It has shaped the way civilization arose - on riverbanks and coastal lands. Adequate water of good quality can make or break a child’s early growth. Water available at the right time in the monsoon could shape a family’s fortunes for an entire year.</p>
<p>Unfortunately given the development trajectory of the last century, we have struggled to strike a balance and use water in a sustainable manner. Far too many face the ill effects of this misuse. The challenge with water lies in its nature as a common pool resource, which means that it belongs to everyone. Water is for everyone to benefit from and conversely it is no individual’s responsibility to manage and to ensure its sustainability. While some laws and policies exist to ensure sustainable use of water its fluid (pun intended) and ephemeral nature make those laws very hard to enforce. No one knows for sure how much water lies under the ground and above the surface, we only have estimates. Moreover even these estimates lie in the hands of a few. The Government of India is by far the largest entity that collects data on water across the country. Management of this resource however requires that these data points and the capacity to monitor should be decentralized. The 73rd amendment recognises this by placing the authority to plan and implement local works such as watershed management and drinking water provision under the purview of Panchayats.</p>
<p>To address this shortcoming Datameet and CIS in collaboration have taken first steps with a project to ensure that data and tools to plan for water resources are accessible to all. The strategy within this project has been to seek alternative data sources for water, other than government data much of which still isn’t open data. Two alternatives that have emerged are remote sensing open data and crowdsourced community data. A <a href="https://datameet-pune.github.io/open-water-data/precipitation/2017/12/31/OWD-Paper/" target="_blank">paper</a> put together by the team highlights the numerous sources available for datasets such as rainfall, soil moisture, groundwater levels, reservoir storages, river flows, and water demand including domestic and agricultural water. Besides the paper the team has also put together a first iteration of a <a href="https://datameet-pune.github.io/open-water-data/precipitation/2018/01/05/OWD-Web-App-Precipitation-Data/" target="_blank">web app</a> which seeks to provide these datasets in an easy to use intuitive and interactive format to users in the area of water planning and management. The first dataset available here is <a href="http://chg.geog.ucsb.edu/data/chirps/" target="_blank">CHIRPS</a>: a high resolution daily rainfall dataset for the whole of India.</p>
<p>The plans for this project in the future include making available more datasets (crop maps and Evapotranspiration) and features to access them. In addition to this the goal is also to improve our understanding of the usability of remote sensing water data with efforts to calibrate it with ground observations. A key element of these plans is to develop these resources in collaboration with end users of the data so that the tools are developed with their concerns in mind. <strong>We welcome ideas, queries, feedback, and partnerships - do contact us at <a href="mailto:pune@datameet.org">pune@datameet.org</a></strong>.</p>
<p> </p>
<p>
For more details visit <a href='https://cis-india.org/openness/on-world-water-day-open-data-for-water-resources'>https://cis-india.org/openness/on-world-water-day-open-data-for-water-resources</a>
</p>
No publishersumandroOpen Water DataOpen DataOpen ScienceOpen Government DataEnvironmentFeaturedOpennessHomepage2019-01-28T14:41:51ZBlog EntrySteps towards Integrated Open Water Data
https://cis-india.org/openness/steps-towards-integrated-open-water-data
<b>Multiplicity of data collection agencies, formats, and disclosure practices and conditionalities make it very difficult to access interoperable and open data about water resources and systems in India. Barriers to accessing water data impede not only academic and applied research on related topics but also public consumption of information and critical decision making. DataMeet and CIS are proud to collaborate on identifying and addressing the challenges to open up and integrate data and information in the water sector. Supported by a generous grant from Arghyam, we are undertaking an initial study of open water data resources in India and taking first steps towards developing a Free and Open Source data portal for water resources information in India. Here is an initial note about the project. The key leaders and contributors of this project are Craig Dsouza, Namita Bhatawdekar, Riddhi Munde, and Jinda Sandbhor, all of whom are members of the Pune Chapter of DataMeet.</b>
<p> </p>
<h4>Project website: <a href="https://datameet-pune.github.io/open-water-data/" target="_blank">https://datameet-pune.github.io/open-water-data/</a></h4>
<h4>Contact: <a href="mailto:pune@datameet.org">pune@datameet.org</a></h4>
<hr />
<h2>The problem statement</h2>
<p>Following devastating precipitation of more than 300mm in 24 hours in early December 2015 the city of Chennai was flooded unlike anything it had seen in recent history. A combination of bad urban planning along with heavy precipitation events had made such eventualities all the more likely. But in the case of such storms what parts of the city are likely to flood? What parts will remain unaffected by the deluge. Specific answers to these questions would help city planners plan better for such emergencies.</p>
<p>Only two months after Chennai was waist deep in water, the city of Latur in 2016 ran dry. The Manjara reservoir, on the river of the same name, the city's source of municipal water supply had not a drop left. With more than 4 months left until the rains would replenish the waters of the dam, the city was now reliant on water being transported in bulk via train tankers from more than 300 kms away, news that made daily headlines. The scale of sugarcane cultivation in the region was being called into question.. Was it possible that lowering the allocation of water to irrigation could have preserved enough water for the city's domestic water needs?</p>
<p>Each of these questions call for answers relating to the exact stock of water resources, and how fast the water flows from one part of the water cycle to another. For example, knowing current soil moisture levels and daily precipitation can we estimate groundwater recharge with a high degree of accuracy? If seasonal groundwater fluctuations and river flows in a watershed or sub-basin is known can we estimate actual quantum groundwater footprint of the crop irrigated with groundwater in that river basin? If new industries are being set up in close proximity to each other what might be the effect of these industries on groundwater stocks in the vicinity.</p>
<p> </p>
<h2>Towards an (integrated and open) data solution</h2>
<p>Deriving cause-effect links between the scale of use of water in a particular region and its possible effect on the status of water resources in the vicinity is an extremely difficult exercise because water stocks and flows are affected by so many causal links which need to be studied and quantified in an integrated manner. An integral part of any water resource study is developing a water balance model to estimate water availability and water demand.</p>
<p><strong>Water availability</strong></p>
<ul><li>Precipitation in the form of rainfall and snowfall,</li>
<li>Live storage capacity in reservoirs,</li>
<li>Soil moisture,</li>
<li>Groundwater levels (and fluctuation), and</li>
<li>Surface water flows in rivers.</li></ul>
<p><strong>Water use/demand</strong></p>
<ul><li><strong>Domestic water use:</strong> Human Population x estimated per capita consumption (or prescribed norm for domestic water consumption),</li>
<li><strong>Livestock water use:</strong> Livestock population x estimated per capita requirement,</li>
<li><strong>Agriculture and Forests:</strong> Evapotranspiration data (derived from temperatures (daily/monthly), wind speeds, humidity (daily/monthly), soil moisture & type, type of Agricultural land use, stage of plant growth, and</li>
<li><strong>Industry:</strong> Nature of industry and annual production x water required per unit of production.</li></ul>
<p><strong>Overcoming the data challenge</strong></p>
<p>Unknown to many, reasonably high resolution data does exist of these variables both across space and time, as described in detail below. Much of this data though hasn't been made inter-operable. We need tools to model water data, putting together real-time data for water availability and demand onto one platform that can facilitate discussions around it. However what we have are either proprietary river basin modeling software (expensive) OR free open source tools (programming/skill intensive).</p>
<p>They demand:</p>
<ul><li>knowledge of programming or know-how of technical tools and unavoidably</li>
<li>knowledge of the various data sources (to piece together the puzzle)</li></ul>
<p>What if instead, we had access to a tool, open, free, accessible to everyone through a browser (hence no need to download software) and most importantly intuitive to use and understand to someone with little technical or programming knowledge.</p>
<p> </p>
<h2>What we propose and who is it for?</h2>
<p>To understand and take the first steps towards developing a completely free and open source data portal for water resources information in India.</p>
<p>Different groups would have different kinds of needs for water data. Researchers for instance tend to think of larger scales (river basins, sub-basins) whereas Gram Panchayat members may not think beyond the village or watershed scale. Hence this proposal aims at macro and micro scales, trying to determine needs at each level and enhancing our platform to meet these different needs.</p>
<p>The project will generate:</p>
<ul><li>A <strong>web app prototype</strong> that will collate secondary data,</li>
<li>A <strong>paper</strong> that outlines sources of data, type of data, level to which available (GP, village, etc.) and nature of the source (Paid/ unpaid/ format available etc.), and</li>
<li>A <strong>model WSP format</strong>, along with indications for what data already exists in secondary sources.</li></ul>
<p>The users of this work will be:</p>
<ul><li>Researchers/Journalists in the water sector, and</li>
<li>Gram Panchayat Members (to effectively develop water security plans, monitor and govern their local water resources).</li></ul>
<p> </p>
<h2>Project Team</h2>
<p>The project team is supported by Nisha Thompson (Director, DataMeet) and Sumandro Chattapadhyay.</p>
<h4>Craig Dsouza</h4>
<p>Craig is an independent researcher in the development sector with a keen interest in water resources and agriculture. He has a Master’s degree in Energy and Environmental Policy (2013) and has worked as a researcher with the Society for Promoting Participative Ecosystem Mgmt, undertaking river basin studies in central and eastern India. Craig believes that the democratization of data and tools to derive insights from it holds tremendous potential for addressing issues of inequity and environmental sustainability in India. He contributes to these efforts as co-ordinator of Datameet-Pune, a city chapter of datameet.org.</p>
<p><strong>GitHub:</strong> <a href="https://github.com/craigdsouza">https://github.com/craigdsouza</a><br />
<strong>Twitter:</strong> <a href="https://twitter.com/dsouza_craig">https://twitter.com/dsouza_craig</a><br />
<strong>Website:</strong> <a href="http://unravellingindia.in/">http://unravellingindia.in/</a></p>
<h4>Namita Bhatawdekar</h4>
<p>Namita is a web developer with 10 years of experience developing web applications and web-based data visualizations. She has worked on developing data Visuaizations for corporate businesses as well as in the research sector. She worked with Singapore-MIT Alliance for Research and Development (MIT's research lab in Singapore) as a Data Visualization expert where she visualized simulation outputs of autonomous vehicles to evaluate urban transport policies. Her work was showcased in many national and international conferences. She has a keen interest in solving social problems using data and is part of Datameet Pune, city chapter of datameet.org.</p>
<p><strong>GitHub:</strong> <a href="https://github.com/bnamita">https://github.com/bnamita</a><br />
LinkedIn: <a href="https://www.linkedin.com/in/namitabhatawdekar/">https://www.linkedin.com/in/namitabhatawdekar/</a><br />
<strong>Website:</strong> <a href="https://bnamita.github.io/Portfolio/">https://bnamita.github.io/Portfolio/</a></p>
<h4>Riddhi Munde</h4>
<p>Riddhi is a GIS and Remote Sensing professional with 2.5 yrs of experience. She has a Master's degree in Geoinformatics and Earth Observation from ITC, University of Twente, The Netherlands. Her project experience includes implementing GIS and remote sensing solutions across a number of industries. She is interested in location and remote sensing analytics, ML, Image processing, web based visualizations and is proficient in ArcGIS, QGIS, PostGIS, Web mapping, algorithm development in Python and R and cloud computing. At Datameet she contributes with her know how of remote sensing to further improve data access in water and agriculture.</p>
<p><strong>LinkedIn:</strong> <a href="https://www.linkedin.com/in/riddhimunde/">https://www.linkedin.com/in/riddhimunde/</a></p>
<h4>Jinda Sandbhor</h4>
<p>Jinda Sandbhor is an action researcher associated with Manthan Adhyayan Kendra, Pune, where he works to document and analyze issues related to the water and energy sectors in India. He actively supports socio-political movements in Maharashtra, Odisha and North Karnataka. In the past he has conducted research studies on water conflicts around rivers and major dams, socio-economic impacts of droughts, impacts of coal based thermal power on water and the local environment. He has been associated with the Datameet-Pune chapter since its beginning in 2015 and here seeks to improve access to data on social and environmental subjects.</p>
<p><strong>Website:</strong> <a href="http://jinda.manthan-india.org/author/jinda/">http://jinda.manthan-india.org/author/jinda/</a></p>
<p> </p>
<p>
For more details visit <a href='https://cis-india.org/openness/steps-towards-integrated-open-water-data'>https://cis-india.org/openness/steps-towards-integrated-open-water-data</a>
</p>
No publishersumandroOpen Water DataOpen DataOpen Government DataEnvironmentOpenness2017-11-02T09:58:13ZBlog Entry