GIS: From Tool to Spatial Data Information System

Five years ago, I started this blog. GIS has graduated from a data capture and manipulation tool to SDIS and merged with the mainstream IT system.  Today’s GIS includes lots of technologies, from programming, remote sensing, web, html, database, IT networking, server management, scripting or automation to route and network analysis…and the list goes on. The problem is that we cannot have every skill on the list in reality. I mean all of these are good skills to GIS; we just cannot be an expert on all subjects. Additionally, GIS is not a pure science, it rests applications. This means, on top of GIS, we will need background knowledge of the discipline whatever the choice for the applications of GIS.

Consider a planner in Public Works Department needs to work on a roadway expansion project, or increase the posted speed limit. The planner might use GIS to (a) identify where to put noise sensors measuring noise impacts in the study, or (b) to use GIS to justify that the noise impacts in an environmental study are within acceptable limits, (c) or use GIS to produce maps explaining the road expansion project and related mitigations in a public hearing. The planner might use GIS to determine the radius of area in which affected homes would receive notifications to attend a coming public hearing. Another planner works on airport expansion project might use GIS to determine which homes can receive free triple-pane window replacement as mitigation to noise impacts justified by an environmental impact report. Examples go on and on. 

When looking at these examples, obviously GIS is used as a tool to achieve the business objectives, to facilitate the operations or justify the legal fulfillment of having environment impact studies done, or simply justify a ‘go ahead’ for a project. The output from the GIS becomes the input to the business process or reaching business decisions. To implement and build the roadway expansion, we will need planners, engineers. GIS is used as a tool to assist reaching the goal. In reality, many engineering departments will assign GIS duties to experience planners instead of creating a ‘pure’ GIS function.

Nevertheless, there are areas that GIS has less emphasis on requiring background knowledge of disciplines, such as creating geo-data for base map, or GIS function in publishing maps in redevelopment agency. But when you think about sanitary base map, don’t you think that the department would want someone who knows GIS and at the same time has sanitary engineering background to understand and read the sanitary construction engineering drawings to ensure accurate data are captured into GI system? 

If you have engineering background, the engineering background will be the core skills that lead you to the appropriate position in engineering related job, and GIS skills would be the secondary skills that make you more successful and ready for the peripheral GIS duties often added to the engineering tasks. GIS is good to have it, but you want to use it in combining with your background and core skills. Out of the GIS skills, you might want to focus on database queries, spatial analysis, CAD interoperability and some mapping skills. As to almost all disciplines programming is helpful. If you perceive you would have lots of repeated tasks, programming in GIS helps to deal with that.

GIS is still a very powerful and useful tool. Like many other professions, it’s a matter of how to apply the technology, and that makes a difference. It is important to find out where you stand in using a technology in combining with other skills you have. GIS would not mean the same for everyone.

Restrict Black Sheeps to Prevent Blackouts and then Think Smart (Grid)

Half the country was without power yesterday (31st July 2012) and day before in the biggest blackout the world has ever seen. Three regional power grids collapsed from too much demand, leaving miners trapped underground, metro services at a halt and people sweltering in the summer heat. Power outages can happen at any time. Power outages can result from many different occurrences and events, including storms, natural disasters, animals, motor vehicle accidents and planned outages. It is a statistical fact that approximately 70% of all power outages across the U.S. are caused by weather-related events, such as thunderstorms, ice storms, heavy winds and lightning strikes, as well as other natural disasters like floods, hurricanes, tornadoes and earthquakes.

 

Power grid is archaic in India, part of the problem with the grid is also the lack of  automation and maintenance. Many of us know that there is considerable leakage of power thru illegal tapping. Transmission efficiency improvement is another issue. Improvements in this area can easily restore & solve about 10 to 15% of the power demands and projects like R-APDRP should be implemented properly to improve the situation.

Biggest problem is huge T&D losses mainly due to power theft and misuse. Theft (of all types) represent a psychological problem (not just socio-economic as propounded by many analysts) that can be tackled only thru strict rules and regulations. Political indifference to this problem, and rampant power theft by industries in connivance to electricity department are the biggest reasons for the continued mess. Even huge investments done in the name of feeder renovation programe launched with APDRP have not resulted in any tangible improvement. Along with technical solutions socio-psychological approach is also desirable. Perfect energy accounting, auditing and pin pointing responsibility for unreasonable energy losses/leakage is primary requirement. People's participation is proved and powerful tool to address the problem.

In fact, Indian power grid is still not ready for a smart grid project. We need a reliable and uninterrupted power not just to those shopping malls, multiplexes and IT parks but to the needy farmers in those drought hit areas where currently the crop cannot sustain because the water cannot be pumped to the farms in time due to power shortage for almost 12 hours every day.  Many argue that Smart-Grid is quite uneconomical compared to the cost of integrating smart-grid equipment to decades old grids. Many consider Smart-Grid as an incapable innovation especially with the conventional system of power Generation, Transmission and Distribution. Instead, microgrids with distributed power generation are the answer to a country with huge population. The design & implementation model there is going to be quite different from what is being done in the US. Microgrids will be less prone to terrorist/security threats and also to blackouts.

Remember, Smartgrids, won’t prevent an outage, but they might allow you to restore things more quickly. Smart grid would definitely help in balancing demand vs. supply, establishing interoperability and thus improving efficiency, if the proper policies are enforced and required infrastructure is develop.

Open Source in Electric Utilities

Kerala Electricity Board saves mn by using Open Source

Kerala has always been in the forefront with regard to free and open source solutions. In Kerala starting from school students to Government offices, everyone uses Linux. 

The revolution started way back in 2008 with the successful in-house development and implementation of ORUMA(Open Resourced Utility Management Application). ORUMA gave freedom to Kerala State Electricity Board (KSEB) from the clutches of Microsoft

KSEB serves 11 million customers across the state and has 697 sections for billing. ORUMA works within a client-server architecture and works in real-time providing solutions for new connections, billing, cash collection and accounting of customers. PostgreSQL is used as a Relational Database Management System (RDBMS), Debian Linux as the server OS, Ubuntu Linux as the client OS, and PHP as the server-side scripting language for the Web-based front-end. In addition to ORUMA, KSEB has accounting software Saras, a Human Resource Management System (PF and Payroll module); HT and EHT billing software for new connections, billing, collection and accounting; software providing Web-enabled services like e-payment, and the Supply Chain Management System, which handles planning, procurement and store management. Even the KSEB website runs on Joomla, again an open source solution. They are planning to implement GIS also on open source as most of their requirements are simple do not justify costly COTS deployment.

Advantages of FOSS adoption:

1. Economic and technical superiority
2. Saved about Rs 7-8 crore(1.6 mn USD) by implementing open source tools for deployment of various applications
3. No license renewals and version updation, so no expenses in that regard
4. The government has become aware about this recurring expenditure, and supports open source solutions to the maximum extent possible to keep IT expenses down to the minimum.
5. No vendor dependability
6. Free to modify code without fear of legal complications
7. In terms of scalability, PostgreSQL stands at par with industry-known proprietary databases like SQL Server, Oracle and MySQL

 

Why India lags behind China in R&D

In the year 2000 the then PM, Mr. Atal Bihari Vajpayee, observed at the Annual Science Congress that the R&D expenditure was  0.9% of GDP and would be increased to 2% in the next five years.

 

In the year 2012, the present PM, Dr. Manmohan Singh, observed, also at that the Annual Science Congress that the R&D expenditure is a meager 0.9% of GDP and it will be increased to 2% in the next five years.

 

Were the two Prime Ministers reading the same speech?

 

Promises are meant to be kept and not to be repeated !!

 

P.S. The above information was brought to my attention by none other than Dr. R A Mashelkar, who was the Scientist President of the 2000 Science Congress session.