Due Date: Week 11, Friday 5:00 pm CRICOS Provider No. 00103D ITECH 7406 Page 1 ITECH7406- Business Intelligence and Data Warehousing Data Analysis Individual Assignment – 2019 Sem3 Worth – 20% (Week...

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Due Date: Week 11, Friday 5:00 pm CRICOS Provider No. 00103D ITECH 7406 Page 1 ITECH7406- Business Intelligence and Data Warehousing Data Analysis Individual Assignment – 2019 Sem3 Worth – 20% (Week 11- Sun, June 2, 2019 - 17:00) Learning Outcomes Assessed: S1,S2,S3,K3, K4, A1,A2 Purpose: To encourage and provide students on-hands experiences of using SAP or Watson Analytics tools to explore, extract and analyse enterprise data This is a business analytics project aimed at generating innovative analytics solutions. It will allow students to show innovation and creativity in applying SAP Business Object/Predictive Analytics or Watson Analytics in designing useful visualization solutions and predictive models for different types of analytics problems. The topic will be on environmental issues. Your main task is to apply any of the analytical tools to develop innovative analytics visualization solutions and predictive models with regards to environment, e.g. climate change, energy consumption, carbon footprint, greenhouse gas emission, pollution dashboard, etc. Besides the suggested datasets/sources, you may apply any other real-world dataset to illustrate your approach (the different datasets can be combined too). Please find the attached sample reports Some possible datasets/sources: http://data.un.org/Explorer.aspx http://data.worldbank.org/topic/environment https://data.oecd.org/ http://geodata.grid.unep.ch/ http://open-data.europa.eu/en/data/publisher/eea https://www.data.gov/ http://data.un.org/Explorer.aspx http://data.worldbank.org/topic/environment https://data.oecd.org/ http://geodata.grid.unep.ch/ http://open-data.europa.eu/en/data/publisher/eea https://www.data.gov/ CRICOS Provider No. 00103D ITECH 7406 Page 2 Report Submission Submit your report as either a word or PDF document via Moodle on Sunday, June 2, 2019 - 17:00 (Week 11). You will submit a 9-10 pages report (about 3000 words not counting cover page and references) of this project. At least 15 references in your report must be from peer- reviewed sources. Include any and all sources of information including any person(s) you interviewed for this project. Please note that all references must adhere to APA style. See http://owl.english.purdue.edu/owl/resource/560/01 and http://www.apastyle.org/ for details on how to format a report and how to cite references. Make sure your follow formal report structure with cover page, introduction, use of headings, subheadings, conclusion sand reference section. You are reminded to read the “Plagiarism” section of the course description. Your essay should be a synthesis of ideas from a variety of sources expressed in your own words. All reports must use the APA referencing style. University Referencing/Citation Style Guide: The University has published a style guide to help students correctly reference and cite information they use in assignments (American Psychological Association (APA) citation style, http://www.ballarat.edu.au/aasp/student/learning_support/generalguide/print/ch06s04.shtml or Australian citation style Reports are to be presented in hard copy in size 12 Arial Font and double spaced. Your report should include a list of references used in the essay and a bibliography of the wider reading you have done to familiarize yourself on the topic. A passing grade will be awarded to assignments adequately addressing all assessment criteria. Higher grades require better quality and more effort. For example, a minimum is set on the wider reading required. A student reading vastly more than this minimum will be better prepared to discuss the issues in depth and consequently their report is likely to be of a higher quality. So before submitting, please read through the assessment criteria very carefully. http://owl.english.purdue.edu/owl/resource/560/01 http://www.apastyle.org/ http://www.ballarat.edu.au/aasp/student/learning_support/generalguide/print/ch06s04.shtml CRICOS Provider No. 00103D ITECH 7406 Page 3 ITECH7406- Business Intelligence and Data Warehousing Data Analysis Individual Assignment – 2018 Sem3 Tasks Max Marks Marks Awarded Comments What are the BI reporting solution/dashboards you will need to develop for the Senior Executives of chosen data Set– You must have at least two types of analytics i.e Predictive/prescriptive/ descriptive 10 Design Mobile application using QSR code for your insights /solutions/dashboard – Please provide your QSR code in your assignment 10 Justify why these BI reporting solution/dashboards are chosen and why those attributes are present and laid out in the fashion you proposed (feel free to include all other relevant justifications using the academic articles). Note: To ensure that you discuss this task properly, you must include visual samples of the reports you produce (i.e. the screenshots of the BI report/dashboard must be presented and explained in the written report; use ‘Snipping tool’), and also include any assumptions that you may have made about the analysis in yourassignment report (i.e. the report to the senior executive team of the company). 10 Furthermore, the CEO would like to improve the operations. Based on your BI analysis and the insights gained from “Data Set”, make some logical recommendations to the CEO, and justify why/how your proposal could enhance company operations, sales etc. Include the relevant screenshots of the BI analysis, and also any assumptions that you may have made about the analysis. 10 Report is well-written and presented professionally, containing: • Title page • Executive Summary (outlining the scope of report, key findings and recommendations) • Table of Contents • Appropriate use of headings within report • Appropriate use of figures (i.e. graphs, summary tables) and • References (APA Style)- in text and bibliography (10 articles) 1 2 1 1 1 4 Total Marks 50 Total Marks out of 20 20%
itech7406-data-analytic-individual-assignment-semester-1-2019-qddxs3ft.pdf
Answered Same DayMay 22, 2021ITECH7406

Answer To: Due Date: Week 11, Friday 5:00 pm CRICOS Provider No. 00103D ITECH 7406 Page 1 ITECH7406- Business...

Mohd answered on May 28 2021
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Order ID 41072/REPORT.docx
ITECH7406- BUSINESS INTELLIGENCE
AND
DATA WAREHOUSING
DATA ANALYSIS REPORT
INDIVIDUAL ASSIGNMENT
2019
SUBMITTED TO:
SUBMITTED BY:
INDEXS
INDEX…………………...…………………………………………..……………………..........2
EXECUTIVE SUMMARY…………………………………..…………………………….........3
INTRODUCTION…………………………………………...………………………………...…4
PARTS OF ANALYTICS…………..……………….…………………………………….4
QSR CODE…………………………………………………………………………………..….5
EXECUTIVE INSIGHT
BI REPORTING SOLUTION/ REPORT...................................................................6
PERFORM DASHBOARDS
· REPORT1……………………………………………………………..…………………8
CEO RECOMMENDATION………………………………………………………………..…14
REFERENCES………………………………………………………………………….…..…13
EXECUTIVE SUMMARY
IBM Watson’s illustrative engage it to return to human use, process gigantic stockpiles of circumstances, and record answers to challenges that corporations could never light up. As later goods is run into Watson’s data entering, it uses AI that is the issue of the taking love of it does in the midst of investigation to survive building its school of separates of science, and the master it is apt for playing on to clients. IBM Watson is used in pretty much every industry vertical, similarly as in positive application sectors, for particular, cybersecurity. This advance is regularly controlled by a partnership’s data examination group, even Watson has grown toward winding up so reasonable to promote that it is furthermore successfully controlled by end consumers, for item, technicians or backs. Daylight based imperativeness is the expansion applied to play the sunlight’s essentialness and produce it useable. Beginning at 2011, the situation conveyed shy of what one tenth of one interest of overall imperativeness demand. Many think about supposed photovoltaic cells, or sun based surfaces, settled on words like zoom, ceilings, and handheld calculators. The germs are forced of semiconductor materials like those built in PC chips. Exactly when sunlight touches the cages, it pounds electrons available from their grains. As the electrons go through the bacterium, they represent government. sun situated warm power plants use varied projects to gather the sunlight’s contingency as a glare source. The warmth is later helped to gush water to propel a steam power plant that performs control in high a comparative construction as coal and key energy grows, allowing size to a sizable figure of communities. Permits initially examine how overall essentialness age both in treats to quantity and cause have turned as space flies on. we have plotted overall essentialness use from 1800 through to 2015. Note that you can use unquestionably the/relative switch on the draw to view these in all out figures or as the dimension of the comprehensive sum. In evidence we introduce in 1800 we have that practically most of the field’s essentialness was passed from standard biomass (fundamentally expending wood and much legitimate issue). The nature (surprisingly the UK) was operating a scant capacity of coal-just around two ratio. Our endeavor into oil usage movedn’t appear until around 1870. Following two decades it was lagged by oil smoke and hydroelectricity. By 1900, coal usage had increased through and through, whisper to for all resolves and purposes half of overall imperativeness (the alternative half leftover biomass, since oil, vapor and hydroelectricity remained pretty much nothing). By the mid-twentieth century, the essentialness mix had grown through and through; coal outperformed standard biofuels and coat was up to around 20 interest. By 1960 the area had changed into significant power establishment. Finally, the present renewables (current biofuels, twist, and daylight based) are simply new, operating off on occurring until the 1980-90s. Other endless causes, for reason, geothermal and marine storms, have not been fused in light of the way that elements of age are pretty much nothing.  the realm exhausted 146,000 terawatt-days (TWh) of basic essentialness in affluence of big occasions more than in 1800. Regardless, for the most separate the present essentialness mix, well than analyses of management that individuals find fascinating. While some may have the aptitude that renewables speak to an infinite plan of overall imperativeness use, their vigorous and swift responsibility in all actuality remains slight.1 Indeed in state we consolidate current biofuels and hydropower, it is even under five ratio. We have long to pass if we are to progress from an oil based good led imperativeness mix to a below-carbon one. Theory and the manufacture of possible improvement is planning, in any suit, as we offer up in this player. We will testify to a process to reinforce and envision content using IBM Watson Studio. Content once-ly is the direction toward establishing a precise and satisfactory means of a deliberately taken out post. There are two procedures to narrative size: extractive and abstractive rundown. We’ll concentrate on extractive summary which mixes the certainty of dictions and jails from the source relate to do up the contemporary plan. Frameworks incorporate situating the congruity of articulations in warning to pluck only those most pertinent to the criticalness of the expert. We’ll furthermore indicate other processes to envision the messages that can allow a brilliant view. In the wave of accomplishing this system formation, you’ll read how to:
         Summarize the stuff from works and broadcast channels.
         Create subject marking on the material to isolate noteworthy issues.
         Create discernments for better cognizance of the data.
         Interpret the synopsis and considering of the experiences.
Analyze the textbook for further refining to make recommendations or taking informed opinions.
INTRODUCTION
Daylight based management structures deduce flawless, unadulterated imperativeness from the sunlight. Presenting sun fueled sheets on your home helps fight ozone depleting substance releases and impairs our absolute confidence on oil based good. Customary law is culled from oil subordinates, for particular, coal and flammable vapor. Access to essentialness is a mean sector for human flourishing, property related progression and desperation helping. Ensuring everyone has ample connection is a persistent and demanding question for global gain. This right would later have the benefit to be spent to find feasible energy authority to your home or house. The possible biological impacts compared with sun arranged influence land service and occupying space setback, water handling, and the management of deadly objects in association can contrast unfathomably depending upon the advance, which develops two general charges: photovoltaic (PV) sun situated cells or concentrating sun fueled warm plants (CSP). Sun arranged essentialness a standard authority. No ozone depleting substance flows are distributed into the broadcast when you use sun arranged sheets to generate government. In expansion, in smoothing of the matter that the sunlight provides more essentialness than we’ll ever oblige, force from sun based law is a critical imperativeness source in the movement to clean imperativeness creation. Daylight based controlled photovoltaic (PV) sheets convert the sunlight’s pillars into management by exciting electrons in silicon cells running the photons of pastel from the star. Associations that can compromise with the charge of an undertaking into various a massive figure of currencies can invest an in-house IBM Watson process, which proves useless servers secured together into a taking love of stack. For companies without these advances, Watson can be drawn to through the IBM cloud. For part, IBM provides an information specialist’s cloud constrained by Watson. our imperativeness systems furthermore have vast natural impacts. Evident and backward and forth movement essentialness systems are seen by oil subordinates (coal, grease and smoke) which supply carbon dioxide (CO2) and other ozone depleting substances the major driver of international natural transformation. If we are to reach our global climate targets and sidestep perilous ecological adjustment, the earth demands an immense and purposeful advancement in its imperativeness sources. Altering the experiment among headway and condition along these ways provides us an unreasonable point of protecting everyone approaches enough efficient essentialness to check up an established prerequisite of experiencing. In this piece we undertake to bury the key segments we demand to fathom worldwide and commonplace essentialness systems: their advancement through time identical to management, folk causes, and deal; advance in overall imperativeness get to and our advance towards down-carbon sources; and mostly the basic rise, property related and prosperity drivers behind the essentialness choices we create. It is suggested to do an essential authority to the perfect scale slants in our recorded and current essentialness structures, with key studies on how we can use this cognizance to define pathways towards an achievable destiny. IBM Watson is in varied production verticals, moving out from communal stability cautious study and condition assurance to sharp city structure masterminding and reasonable argument end test. IBM Watson continues working on IBM Power helpers that are not accepting any and all media modems in the admirable grasp, further that establishing that form when they are organized collectively in communal projects of tens and indeed big waiters, with an esteem site for a subjective architecture that divorce a vast striving or a hearing organization can buy up under. The stirring account for limited and slow capacity partnerships is that they can use Watson, still; IBM presents a distorted-based compromise of Watson that tribes can handle for by recruitment or on entertaining.
PARTS OF ANALYTIC
Predictive: Prescient study follows a synthesis of significant ideas from word handling, wise came out, and AI, That eviscerate present and veritable materials to draw checks about outcome or generally steam purposes.
 
Descriptive:  An enlightening appraisal is a rundown estimation that quantitatively describes or accumulates climaxes of an action of amount, while artistic items of report in the communal circumstance fact studied is the grasp toward advancing and guessing about those discernments.
QSR CODE
QR systems, another thing to do “rapid return” methods, are rectangular-molded long contrast thinks that men can look at employing a unit contact to come intimate with a component.
These encoded areas can have joins, advertisements, occasion intricacies, and alternative cases that buyers should require to stand with them for alluding to subsequently.
EXECUTIVE INSIGHT
BI REPORTING SOLUTION/REPORTS
A detailed description is a cordial of an organization message that uses philosophical and significant association data to separate similarly as sample an industry scheme or procedure, while writing in delegates to land on data driven decisions reliant on evidence and research. While insightful declaring relies upon appraisals, contained experiences and can run on perceptive exploration of a unique release, its management is furthermore spread in separating current inputs in a vast expansion of endeavors. For pattern, a resource has led into their paper that the natural holding up life can be detracted from by coordinating unequivocal exercises. Harvard University even revealed in its own individual research that the absolute holding up whole is 121 minutes. An elevating office can allocate their spending limit contrastingly after the congregation has noticed that the most traffic starts from a substitute wellspring of the added spending proposal. Usages of these combs of descriptions are one of a cordial, and, as such, the composition style and publishing goods is exact in every production. Bi bits of learning concepts in structure trust through responsibility. It is this apothegm that entitles us to discern customer payment and focus on issues snappier. We race around our tastes to the chore and are ever alert for any publishing or trouble which our patrons may have. It is this energy inspires us to serve adequately for our consumers. For us at Bi bits of determining, being available and accomplished is the journey to a reliable accord with our consumers. You may in like manner stand in reach with us, a natural to utilize Quick Chat office is accessible to send your inquiries snappier. To take some answers concerning procedures to contract with gain in effect with us, click on the huge tabs on this page. As we reach on this voyage, one situation won’t reform - an assertion of our best group to you faithfully.
PERFORM REPORT Or DASHBOARD
REPORT
Source: Solar Electricity : Energy Statistics Database http://data.un.org/Data.aspx?d=EDATA&f=cmID%3aES%3btrID%3a01
The Energy Statistics Database contains total essentialness estimations on the maturing, industry, innovation and last use of vital and attendant; customary and non-model; and strange and limitless wellsprings of contingency. Sun fueled imperativeness offers clean weight. It givesn’t suggest the vulnerability of a significant blow, yet it is in revelation a plot of emission, hardly some of which is absolute light. It will in general be mounted to any width or multifaceted world, from heating an accommodation through a window to compelling a service practice. The Union of Concerned Scientists records different favorable occurrences, leading with sun controlled imperativeness being persistent and free. The proposal of sun fueled power creation varies with the commercial parts of putting assets into machinery, and cost contention from non-sustainable energy authorities. Consistent American means the requiring of sun based power falling underneath the present ordinary power cost by the regular months. The U.S. Imperativeness Information Administration calls “service-mounted” daylight based plants as those forming in any experience one megawatt of anxiety. California operates the United States in sun based essentialness age; in 2013, 1.9 percent of California’s strength started from sun controlled, and by 2014, the total significantly enlarged to 5 rate. The U.S. EIA puts the people’s management of photovoltaic sun fueled power at 16,000 mega watthours (MWh) in 2005, and advancing to 15,874,000 MWh in 2014. Little scale businesses of sun based management also exhibit good, like the 5-watt units displayed on Ohio Highway Patrol cruisers to check on-board electronic equipment without holding to stretch the’s turbine, thusly saving oil subordinate and battery time.
CEO RECOMMENDATION
Pushed Energy Business Managers’ Viewpoints and Judgments on Energy Programs, has the material from a change of chance to make gatherings the party coordinated with CEOs and senior directors from bleeding edge imperativeness associations that have appointments in the say. The investigation established that heads back of California’s tasks to push essentialness advancement yet are repeated over the put’s tangled managerial culture. Notwithstanding California’s constant money related moves assigned to a portion by bit recovering US economy and substantial reductions in solid-by spending projects, the express has been the determining ground for other cutting edge clean imperativeness procedures. These consolidate higher fuel specifications for vans and increasingly essential structure hold for the increase of elective vehicles; updated markets for indefinite and pushed essentialness resources, similarly as the course of performance of various imperativeness efficiencies and spread enthusiasm for intelligent structure, delivery, and on space age propels. Also, California has shifted a multisector top on ozone depleting substance (GHG) drops; this unusual game policy, established as AB32, powers basic consistence essentials on solids and affiliations yet moreover promises to do extended salaries for expounding and service use, dealing to leaders. The pushed essentialness executives met prescribed that transferring these policy programs forward satisfactorily will compel a calculated effort across over various doses of the present ministry to direct programs in a process that avoids waste and inability and reduces potential cost impacts that could cause a reply against California’s imperativeness expert. They moreover call for more noteworthy ease and accountability in the cooperation of the spoke’s staggering snare of imperativeness methodologies and enjoys. Contribution from these pioneers is vital, Individual endeavor will elect to a vast scale the triumph or resentment of these procedures for California’s recession and its tenants. Circumspectly evaluating the scheduling and joined impact of EPA rules on the electrical utility production and, as proper, adjusting these practices to secure continued with uncompromising condition, avoid preposterous rate effects, and carry up a diverse, publicize driven course of movement of baseload control age fuel decisions; Devising a full deal answer for desert and deliver nuclear spent fuel; Providing direct rate makes for down to earth ascends to the state’s transportation system in request to reinforce structure modernization and reinforce centered markdown control markets; Improving coordination among government systems, for precedent, the Federal Energy Regulatory Commission and U.S. Part of Energy (Rodents), give commissions and various associates, to call the varied world, unexpectedness and disorganization of transmission organizing, spotting and cost allocation rules for social endeavors; Supporting DOE and National Institute of Ideals and Technology works to stimulate and restore the advancement of “beautiful system” designs; and Taking critical and propitious cybersecurity hazard knowledge sharing from rule to fundamental establishment owners and leaders.
REFERENCES
Pawlak, Z. (2002). Rough sets and intelligent data analysis. Information sciences, 147(1-4), 1-12.
        
        Fukuda, S., Fukuda, Y., Ishitsuka, M., Itow, Y., Kajita, T., Kameda, J., ... & Moriyama, S. (2001). Solar B 8 and hep Neutrino Measurements from 1258 Days of Super-Kamiokande Data. Physical Review Letters, 86(25), 5651.
        Ramesh, T., Prakash, R., & Shukla, K. K. (2010). Life cycle energy analysis of buildings: An overview. Energy and buildings, 42(10), 1592-1600.
Che, H. Z., Shi, G. Y., Zhang, X. Y., Arimoto, R., Zhao, J. Q., Xu, L., ... & Chen, Z. H. (2005). Analysis of 40 years of solar radiation data from China, 1961–2000. Geophysical Research Letters, 32(6).
        
Lin, R. P., Dennis, B. R., Hurford, G. J., Smith, D. M., Zehnder, A., Harvey, P. R., ... & Csillaghy, A. (2003). The Reuven Ramaty high-energy solar spectroscopic imager (RHESSI). In The Reuven Ramaty High-Energy Solar Spectroscopic Imager (RHESSI) (pp. 3-32). Springer, Dordrecht.
Espinar, B., Ramírez, L., Drews, A., Beyer, H. G., Zarzalejo, L. F., Polo, J., & Martín, L. (2009). Analysis of different comparison parameters applied to solar radiation data from satellite and German radiometric stations. Solar Energy, 83(1), 118-125.
Bhandari, K. P., Collier, J. M., Ellingson, R. J., & Apul, D. S. (2015). Energy payback time (EPBT) and energy return on energy invested (EROI) of solar photovoltaic systems: A systematic review and meta-analysis. Renewable and Sustainable Energy Reviews, 47, 133-141.
Fukuda, Y., Hayakawa, T., Inoue, K., Ishihara, K., Ishino, H., Joukou, S., ... & Matsumoto, K. (1996). Solar neutrino data covering solar cycle 22. Physical Review Letters, 77(9), 1683.
Order ID 41072/UNdata_Export_20190526_165139859.csv
"Country or Area","Commodity - Transaction","Year","Unit","Quantity","Quantity Footnotes"
"Algeria","Electricity - total solar production","2017","Kilowatt-hours, million","55",""
"Algeria","Electricity - total solar production","2016","Kilowatt-hours, million","14",""
"Algeria","Electricity - total solar production","2015","Kilowatt-hours, million","58",""
"American Samoa","Electricity - total solar production","2016","Kilowatt-hours, million","1.7","1"
"American Samoa","Electricity - total solar production","2015","Kilowatt-hours, million","1.5",""
"American Samoa","Electricity - total solar production","2014","Kilowatt-hours, million","1.1","1"
"American Samoa","Electricity - total solar production","2013","Kilowatt-hours, million","1.1","1"
"American Samoa","Electricity - total solar production","2012","Kilowatt-hours, million","1.1",""
"Antigua and Barbuda","Electricity - total solar production","2011","Kilowatt-hours, million","5",""
"Antigua and Barbuda","Electricity - total solar production","2010","Kilowatt-hours, million","5",""
"Argentina","Electricity - total solar production","2016","Kilowatt-hours, million","14",""
"Argentina","Electricity - total solar production","2015","Kilowatt-hours, million","15",""
"Argentina","Electricity - total solar production","2014","Kilowatt-hours, million","16",""
"Argentina","Electricity - total solar production","2013","Kilowatt-hours, million","15",""
"Argentina","Electricity - total solar production","2012","Kilowatt-hours, million","8",""
"Argentina","Electricity - total solar production","2011","Kilowatt-hours, million","2",""
"Argentina","Electricity - total solar production","2010","Kilowatt-hours, million","0.09",""
"Argentina","Electricity - total solar production","2009","Kilowatt-hours, million","0.08",""
"Armenia","Electricity - total solar production","2017","Kilowatt-hours, million","0",""
"Armenia","Electricity - total solar production","2016","Kilowatt-hours, million","1",""
"Armenia","Electricity - total solar production","2015","Kilowatt-hours, million","1",""
"Australia","Electricity - total solar production","2016","Kilowatt-hours, million","6209",""
"Australia","Electricity - total solar production","2015","Kilowatt-hours, million","5023",""
"Australia","Electricity - total solar production","2014","Kilowatt-hours, million","4010",""
"Australia","Electricity - total solar production","2013","Kilowatt-hours, million","3475",""
"Australia","Electricity - total solar production","2012","Kilowatt-hours, million","2325",""
"Australia","Electricity - total solar production","2011","Kilowatt-hours, million","1391",""
"Australia","Electricity - total solar production","2010","Kilowatt-hours, million","389",""
"Australia","Electricity - total solar production","2009","Kilowatt-hours, million","160",""
"Australia","Electricity - total solar production","2008","Kilowatt-hours, million","127",""
"Australia","Electricity - total solar production","2007","Kilowatt-hours, million","109",""
"Australia","Electricity - total solar production","2006","Kilowatt-hours, million","91",""
"Australia","Electricity - total solar production","2005","Kilowatt-hours, million","79",""
"Australia","Electricity - total solar production","2004","Kilowatt-hours, million","69",""
"Australia","Electricity - total solar production","2003","Kilowatt-hours, million","59",""
"Australia","Electricity - total solar production","2002","Kilowatt-hours, million","50",""
"Australia","Electricity - total solar production","2001","Kilowatt-hours, million","44",""
"Australia","Electricity - total solar production","2000","Kilowatt-hours, million","38",""
"Australia","Electricity - total solar production","1999","Kilowatt-hours, million","34",""
"Australia","Electricity - total solar production","1998","Kilowatt-hours, million","28",""
"Australia","Electricity - total solar production","1997","Kilowatt-hours, million","23",""
"Australia","Electricity - total solar production","1996","Kilowatt-hours, million","19",""
"Australia","Electricity - total solar production","1995","Kilowatt-hours, million","16",""
"Australia","Electricity - total solar production","1994","Kilowatt-hours, million","13",""
"Australia","Electricity - total solar production","1993","Kilowatt-hours, million","11",""
"Austria","Electricity - total solar production","2016","Kilowatt-hours, million","1096",""
"Austria","Electricity - total solar production","2015","Kilowatt-hours, million","937",""
"Austria","Electricity - total solar production","2014","Kilowatt-hours, million","785",""
"Austria","Electricity - total solar production","2013","Kilowatt-hours, million","582",""
"Austria","Electricity - total solar production","2012","Kilowatt-hours, million","337",""
"Austria","Electricity - total solar production","2011","Kilowatt-hours, million","174",""
"Austria","Electricity - total solar production","2010","Kilowatt-hours, million","89",""
"Austria","Electricity - total solar production","2009","Kilowatt-hours, million","49",""
"Austria","Electricity - total solar production","2008","Kilowatt-hours, million","30",""
"Austria","Electricity - total solar production","2007","Kilowatt-hours, million","24",""
"Austria","Electricity - total solar production","2006","Kilowatt-hours, million","22",""
"Austria","Electricity - total solar production","2005","Kilowatt-hours, million","21",""
"Austria","Electricity - total solar production","2004","Kilowatt-hours, million","18",""
"Austria","Electricity - total solar production","2003","Kilowatt-hours, million","15",""
"Austria","Electricity - total solar production","2002","Kilowatt-hours, million","9",""
"Austria","Electricity - total solar production","2001","Kilowatt-hours, million","5",""
"Austria","Electricity - total solar production","2000","Kilowatt-hours, million","3",""
"Austria","Electricity - total solar production","1999","Kilowatt-hours, million","2",""
"Austria","Electricity - total solar production","1998","Kilowatt-hours, million","2",""
"Austria","Electricity - total solar production","1997","Kilowatt-hours, million","2",""
"Austria","Electricity - total solar production","1996","Kilowatt-hours, million","1",""
"Austria","Electricity - total solar production","1995","Kilowatt-hours, million","1",""
"Austria","Electricity - total solar production","1994","Kilowatt-hours, million","1",""
"Austria","Electricity - total solar production","1993","Kilowatt-hours, million","1",""
"Azerbaijan","Electricity - total solar production","2016","Kilowatt-hours, million","35",""
"Azerbaijan","Electricity - total solar production","2015","Kilowatt-hours, million","5",""
"Azerbaijan","Electricity - total solar production","2014","Kilowatt-hours, million","3",""
"Azerbaijan","Electricity - total solar production","2013","Kilowatt-hours, million","1",""
"Bahrain","Electricity - total solar production","2016","Kilowatt-hours, million","9",""
"Bahrain","Electricity - total solar production","2015","Kilowatt-hours, million","9",""
"Bangladesh","Electricity - total solar production","2016","Kilowatt-hours, million","165",""
"Bangladesh","Electricity - total solar production","2015","Kilowatt-hours, million","154",""
"Bangladesh","Electricity - total solar production","2014","Kilowatt-hours, million","145",""
"Bangladesh","Electricity - total solar production","2013","Kilowatt-hours, million","136",""
"Belarus","Electricity - total solar production","2016","Kilowatt-hours, million","28",""
"Belarus","Electricity - total solar production","2015","Kilowatt-hours, million","8",""
"Belarus","Electricity - total solar production","2014","Kilowatt-hours, million","1",""
"Belgium","Electricity - total solar production","2016","Kilowatt-hours, million","3086",""
"Belgium","Electricity - total solar production","2015","Kilowatt-hours, million","3053",""
"Belgium","Electricity - total solar production","2014","Kilowatt-hours, million","2883",""
"Belgium","Electricity - total solar production","2013","Kilowatt-hours, million","2644",""
"Belgium","Electricity - total solar production","2012","Kilowatt-hours, million","2148",""
"Belgium","Electricity - total solar production","2011","Kilowatt-hours, million","1169",""
"Belgium","Electricity - total solar production","2010","Kilowatt-hours, million","560",""
"Belgium","Electricity - total solar production","2009","Kilowatt-hours, million","166",""
"Belgium","Electricity - total solar production","2008","Kilowatt-hours, million","42",""
"Belgium","Electricity - total solar production","2007","Kilowatt-hours, million","6",""
"Belgium","Electricity - total solar production","2006","Kilowatt-hours, million","2",""
"Belgium","Electricity - total solar production","2005","Kilowatt-hours, million","1",""
"Belgium","Electricity - total solar production","2004","Kilowatt-hours, million","1",""
"Benin","Electricity - total solar production","2016","Kilowatt-hours, million","5",""
"Benin","Electricity - total solar production","2015","Kilowatt-hours, million","5",""
"Bolivia (Plur. State of)","Electricity - total solar production","2016","Kilowatt-hours, million","11",""
"Bolivia (Plur. State of)","Electricity - total solar production","2015","Kilowatt-hours, million","11",""
"Bolivia (Plur. State of)","Electricity - total solar production","2014","Kilowatt-hours, million","6",""
"Bolivia (Plur. State of)","Electricity - total solar production","2013","Kilowatt-hours, million","3",""
"Bolivia (Plur. State of)","Electricity - total solar production","2012","Kilowatt-hours, million","3",""
"Bolivia (Plur. State of)","Electricity - total solar production","2011","Kilowatt-hours, million","3",""
"Bolivia (Plur. State of)","Electricity - total solar production","2010","Kilowatt-hours, million","3",""
"Bolivia (Plur. State of)","Electricity - total solar production","2009","Kilowatt-hours, million","2",""
"Bolivia (Plur. State of)","Electricity - total solar production","2008","Kilowatt-hours, million","1",""
"Bosnia and Herzegovina","Electricity - total solar production","2016","Kilowatt-hours, million","24",""
"Botswana","Electricity - total solar production","2016","Kilowatt-hours, million","2",""
"Botswana","Electricity - total solar production","2015","Kilowatt-hours, million","1.3",""
"Botswana","Electricity - total solar production","2014","Kilowatt-hours, million","1.3",""
"Botswana","Electricity - total solar production","2013","Kilowatt-hours, million","1.3",""
"Botswana","Electricity - total solar production","2012","Kilowatt-hours, million","1.3",""
"Brazil","Electricity - total solar production","2017","Kilowatt-hours, million","832",""
"Brazil","Electricity - total solar production","2016","Kilowatt-hours, million","85",""
"Brazil","Electricity - total solar production","2015","Kilowatt-hours, million","59",""
"Brazil","Electricity - total solar production","2014","Kilowatt-hours, million","16",""
"Brazil","Electricity - total solar production","2013","Kilowatt-hours, million","7",""
"British Virgin Islands","Electricity - total solar production","2016","Kilowatt-hours, million","0.7","1"
"British Virgin Islands","Electricity - total solar production","2015","Kilowatt-hours, million","0.67","1"
"British Virgin Islands","Electricity - total solar production","2014","Kilowatt-hours, million","0.67","1"
"British Virgin Islands","Electricity - total solar production","2013","Kilowatt-hours, million","0.29","1"
"British Virgin Islands","Electricity - total solar production","2012","Kilowatt-hours, million","0.02","1"
"British Virgin Islands","Electricity - total solar production","2011","Kilowatt-hours, million","0.02","1"
"Brunei Darussalam","Electricity - total solar production","2016","Kilowatt-hours, million","1",""
"Brunei Darussalam","Electricity - total solar production","2015","Kilowatt-hours, million","2",""
"Brunei Darussalam","Electricity - total solar production","2014","Kilowatt-hours, million","2",""
"Brunei Darussalam","Electricity - total solar production","2013","Kilowatt-hours, million","2",""
"Brunei Darussalam","Electricity - total solar production","2012","Kilowatt-hours, million","2",""
"Brunei Darussalam","Electricity - total solar production","2011","Kilowatt-hours, million","2",""
"Bulgaria","Electricity - total solar production","2016","Kilowatt-hours, million","1386",""
"Bulgaria","Electricity - total solar production","2015","Kilowatt-hours, million","1383",""
"Bulgaria","Electricity - total solar production","2014","Kilowatt-hours, million","1252",""
"Bulgaria","Electricity - total solar production","2013","Kilowatt-hours, million","1361",""
"Bulgaria","Electricity - total solar production","2012","Kilowatt-hours, million","814",""
"Bulgaria","Electricity - total solar production","2011","Kilowatt-hours, million","101",""
"Bulgaria","Electricity - total solar production","2010","Kilowatt-hours, million","15",""
"Bulgaria","Electricity - total solar production","2009","Kilowatt-hours, million","3",""
"Cabo Verde","Electricity - total solar production","2016","Kilowatt-hours, million","5.6",""
"Cabo Verde","Electricity - total solar production","2015","Kilowatt-hours, million","6.2",""
"Cabo Verde","Electricity - total solar production","2014","Kilowatt-hours, million","5.02",""
"Cabo Verde","Electricity - total solar production","2013","Kilowatt-hours, million","7.28",""
"Cabo Verde","Electricity - total solar production","2012","Kilowatt-hours, million","7.49",""
"Cabo Verde","Electricity - total solar production","2011","Kilowatt-hours, million","8.96",""
"Cabo Verde","Electricity - total solar production","2010","Kilowatt-hours, million","2.11",""
"Cabo Verde","Electricity - total solar production","2009","Kilowatt-hours, million","0",""
"Cabo Verde","Electricity - total solar production","2008","Kilowatt-hours, million","0",""
"Cabo Verde","Electricity - total solar production","2007","Kilowatt-hours, million","0",""
"Cambodia","Electricity - total solar production","2016","Kilowatt-hours, million","3",""
"Cambodia","Electricity - total solar production","2015","Kilowatt-hours, million","3",""
"Cambodia","Electricity - total solar production","2014","Kilowatt-hours, million","3",""
"Cambodia","Electricity - total solar production","2013","Kilowatt-hours, million","3",""
"Cambodia","Electricity - total solar production","2012","Kilowatt-hours, million","3",""
"Cambodia","Electricity - total solar production","2011","Kilowatt-hours, million","3",""
"Cambodia","Electricity - total solar production","2010","Kilowatt-hours, million","3",""
"Cambodia","Electricity - total solar production","2009","Kilowatt-hours, million","2",""
"Cambodia","Electricity - total solar production","2008","Kilowatt-hours, million","2",""
"Cambodia","Electricity - total solar production","2007","Kilowatt-hours, million","2",""
"Cambodia","Electricity - total solar production","2006","Kilowatt-hours, million","2",""
"Cambodia","Electricity - total solar production","2005","Kilowatt-hours, million","1",""
"Canada","Electricity - total solar production","2016","Kilowatt-hours, million","3031",""
"Canada","Electricity - total solar production","2015","Kilowatt-hours, million","2895",""
"Canada","Electricity - total solar production","2014","Kilowatt-hours, million","2120",""
"Canada","Electricity - total solar production","2013","Kilowatt-hours, million","1499",""
"Canada","Electricity - total solar production","2012","Kilowatt-hours, million","881",""
"Canada","Electricity - total solar production","2011","Kilowatt-hours, million","572",""
"Canada","Electricity - total solar production","2010","Kilowatt-hours, million","255",""
"Canada","Electricity - total solar production","2009","Kilowatt-hours, million","109",""
"Canada","Electricity - total solar production","2008","Kilowatt-hours, million","35",""
"Canada","Electricity - total solar production","2007","Kilowatt-hours, million","26",""
"Canada","Electricity - total solar production","2006","Kilowatt-hours, million","21",""
"Canada","Electricity - total solar production","2005","Kilowatt-hours, million","17",""
"Canada","Electricity - total solar production","2004","Kilowatt-hours, million","13",""
"Canada","Electricity - total solar production","2003","Kilowatt-hours, million","23",""
"Canada","Electricity - total solar production","2002","Kilowatt-hours, million","22",""
"Canada","Electricity - total solar production","2001","Kilowatt-hours, million","19",""
"Canada","Electricity - total solar production","2000","Kilowatt-hours, million","16",""
"Canada","Electricity - total solar production","1999","Kilowatt-hours, million","13",""
"Canada","Electricity - total solar production","1998","Kilowatt-hours, million","10",""
"Canada","Electricity - total solar production","1997","Kilowatt-hours, million","7",""
"Canada","Electricity - total solar production","1996","Kilowatt-hours, million","6",""
"Canada","Electricity - total solar production","1995","Kilowatt-hours, million","4",""
"Canada","Electricity - total solar production","1994","Kilowatt-hours, million","3",""
"Canada","Electricity - total solar production","1993","Kilowatt-hours, million","3",""
"Canada","Electricity - total solar production","1992","Kilowatt-hours, million","2",""
"Chile","Electricity - total solar production","2016","Kilowatt-hours, million","2639",""
"Chile","Electricity - total solar production","2015","Kilowatt-hours, million","1261",""
"Chile","Electricity - total solar production","2014","Kilowatt-hours, million","480",""
"Chile","Electricity - total solar production","2013","Kilowatt-hours, million","8",""
"Chile","Electricity - total solar production","2012","Kilowatt-hours, million","0",""
"Chile","Electricity - total solar production","2011","Kilowatt-hours, million","0",""
"China","Electricity - total solar production","2016","Kilowatt-hours, million","61586",""
"China","Electricity - total solar production","2015","Kilowatt-hours, million","38776",""
"China","Electricity - total solar production","2014","Kilowatt-hours, million","15189",""
"China","Electricity - total solar production","2013","Kilowatt-hours, million","5564",""
"China","Electricity - total solar production","2009","Kilowatt-hours, million","279",""
"China","Electricity - total solar production","2007","Kilowatt-hours, million","114",""
"Cook Islands","Electricity - total solar production","2017","Kilowatt-hours, million","3.4","1"
"Cook Islands","Electricity - total solar production","2016","Kilowatt-hours, million","3.6","1"
"Cook Islands","Electricity - total solar production","2015","Kilowatt-hours, million","2.4","1"
"Cook Islands","Electricity - total solar production","2014","Kilowatt-hours, million","2.6","1"
"Cook Islands","Electricity - total solar production","2013","Kilowatt-hours, million","1.4","1"
"Cook Islands","Electricity - total solar production","2012","Kilowatt-hours, million","1.4","1"
"Cook Islands","Electricity - total solar production","2011","Kilowatt-hours, million","0.9","1"
"Costa Rica","Electricity - total solar production","2016","Kilowatt-hours, million","2.41333333333333",""
"Costa Rica","Electricity - total solar production","2015","Kilowatt-hours, million","2.53388888888889",""
"Costa Rica","Electricity - total solar production","2014","Kilowatt-hours, million","2.465556",""
"Costa Rica","Electricity - total solar production","2013","Kilowatt-hours, million","2.443333",""
"Costa Rica","Electricity - total solar production","2012","Kilowatt-hours, million","1.296944",""
"Costa Rica","Electricity - total solar production","2011","Kilowatt-hours, million","0.479722",""
"Costa Rica","Electricity - total solar production","2010","Kilowatt-hours, million","0.258333",""
"Costa Rica","Electricity - total solar production","2009","Kilowatt-hours, million","0.177777777777778",""
"Costa Rica","Electricity - total solar production","2008","Kilowatt-hours, million","0.177777777777778",""
"Costa Rica","Electricity - total solar production","2007","Kilowatt-hours, million","0.177777777777778",""
"Costa Rica","Electricity - total solar production","2006","Kilowatt-hours, million","0.177777777777778",""
"Costa Rica","Electricity - total solar production","2005","Kilowatt-hours, million","0.172222222222222",""
"Costa Rica","Electricity - total solar production","1997","Kilowatt-hours, million","76",""
"Costa Rica","Electricity - total solar production","1996","Kilowatt-hours, million","23",""
"Costa Rica","Electricity - total solar production","1995","Kilowatt-hours, million","23","1"
"Croatia","Electricity - total solar production","2016","Kilowatt-hours, million","66",""
"Croatia","Electricity - total solar production","2015","Kilowatt-hours, million","57",""
"Croatia","Electricity - total solar production","2014","Kilowatt-hours, million","35",""
"Croatia","Electricity - total solar production","2013","Kilowatt-hours, million","11",""
"Croatia","Electricity - total solar production","2012","Kilowatt-hours, million","2",""
"Croatia","Electricity - total solar production","2011","Kilowatt-hours, million","0",""
"Croatia","Electricity - total solar production","2010","Kilowatt-hours, million","0",""
"Croatia","Electricity - total solar production","2009","Kilowatt-hours, million","0",""
"Croatia","Electricity - total solar production","2008","Kilowatt-hours, million","0",""
"Croatia","Electricity - total solar production","2007","Kilowatt-hours, million","0",""
"Curaçao","Electricity - total solar production","2016","Kilowatt-hours, million","32",""
"Cyprus","Electricity - total solar production","2016","Kilowatt-hours, million","146",""
"Cyprus","Electricity - total solar production","2015","Kilowatt-hours, million","126",""
"Cyprus","Electricity - total solar production","2014","Kilowatt-hours, million","84",""
"Cyprus","Electricity - total solar production","2013","Kilowatt-hours, million","47",""
"Cyprus","Electricity - total solar...
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