Wednesday, 6 December 2017

Green Robot Machinery Private Limited


Green Robot Machinery

 
The startup expects about Rs 1 crore in revenue for fiscal 2018-2019 with plans to foray into Europe and Africa after India. "We are currently bootstrapped with grants from the Government and incubator Villgro," says Sambandam. 
 
Name of the Company: Green Robot Machinery Private Limited
Name of Founder (s): Manohar Sambandam & Neeraj Bhardwaj
City: Bengaluru
Revenues: NIL
Headcount: 6
Industry: Agriculture

When Manohar Sambandam chose to turn entrepreneur at the age of 50, he had it all figured out. A techie in the semi-conductor industry for 25 years, he decided to turn a farmer and quit the corporate world in 2013.

"I had bought a piece of agricultural land in Tamil Nadu and tried different crops. Cotton was one of the cash crops which seemed ideal. It requires less water, a lot of sunlight and the prices are a lot better than crops like paddy," says Sambandam, 54.

Sambandam took the plunge and did all the 12.47 acres of his land with cotton. His labour bore fruit and Sambandam had a very good yield. However, to Sambandam's horror he now had a peculiar problem that he had not accounted for before. "Unfortunately cotton is a crop which is completely done by manual labour. Cotton picking is completely dependent on humans and the demand for people 'peaks' during the picking season," says Sambandam.

Demand not only increases the cost of the labour, but also brings in other unethical behavior such as child labour into practice. "Though I had a good yield it was not possible for me to harvest the cotton due to non-availability of the labour at the peak season. Finally, unseasonable rain destroyed the cotton in the field which was ready for picking," says Sambandam.

Bringing precision

Sambandam was quick to realize that he would need a different approach if his farming endeavour had to succeed. "With this thought I decided to solve this problem using some of the emerging technologies like robotics, which I had some interest," says Sambandam. He teamed up with his friend and colleague at Texas Instruments, Neeraj Bhardwaj, to get around the problem.

In the technology space robotics was maturing and cost of the technology was rapidly coming down, which provided Sambandam the unique possibility of making precision farm robotics. "I decided to look at farm robotics, specifically looking at the farming conditions in India. The peak labour problem is an important issue across the cotton belt of India and states like Gujarat, Maharashtra, Telengana and others," says Sambandam.

After working on it for years, the duo came up with GRoboMac, a farm robotics machine which will help increase the productivity of the farm labour by many folds and minimise the peak labour risks farmers face. It will also improve the farm labour income, improve productivity of the farmers and improve the overall economy of farming.

The working of the robot has been designed in such a way that the computerized vision detects and locates the precise 3D coordinates of the bloomed cotton from the images of the cotton plant. A robotic arm uses these coordinates to pick the cotton and the arm, then uses a vacuum for precision picking of cotton and avoids picking any other contaminant.

Multiple of these robotic arms is mounted on a semi-autonomous vehicle that moves over rows of cotton plant to harvest the complete cotton field. This mechanism closely mimics the human method of picking, but at a much higher productivity level of manual picking. 
 
"Human operators will operate these machines in the cotton field in a) guiding them between rows of cotton plant, b) unloading the picked cotton and c) moving the machine to move from one field to another and doing any maintenance tasks," says Sambandam.

The farm machines are currently targeted to harvest cotton, but in future will be expanded to harvest horticulture crops like Brinjal, Ladies finger etc. The machine can also do precision weeding, pruning of plants for higher yield and do precision targeted spraying of nutrients and fertilisers.

John Deere, the US-major, has an excellent combine harvester for cotton, but it does not suit Indian breed of cotton and the condition prevalent in India like small land holding and manual seeding. GRoboMac is looking to fill that gap.


At your service

"Farming in India is getting ready to be serviced by what is called as 'Farming as a Service' (FAAS) where complete farming operations will be provided as a service. These services will include seeding, weeding, harvesting and Agri-advisory. We will soon see companies that will use mechanisation and with their integrated farming advisory services, will provide the complete end-to-end farming activities as a service," says Sambandam.

Many companies like EM3, Triingo (a Mahindra company), Zamindara, VST and many others have already started investing in FAAS and the government is supporting entrepreneurs with funding and other support to take expand this.

"The customers of our machines will be the emerging FAAS companies as well as the large village farmers who typically own tractors and provide these machines on a rental model. We are in the prototype stage and are now conducting field testing. We do not have a customer yet, but we are testing our machines with many farmers in their agriculture field," says Sambandam.

The going has, however, not been easy for the startup. The initial challenge was around technology, but the issue today is to, "recruit good engineers who would want to work in this high tech domain, but serve the not so jazzy 'agriculture' market space. We require AI and embedded software engineers and very high precision mechanical engineers on board. We also need funding to sustain our development to take it to the field," says Sambandam.

The startup expects about Rs 1 crore in revenue for fiscal 2018-2019 with plans to foray into Europe and Africa after India. "We are currently bootstrapped with grants from the Government and incubator Villgro," says Sambandam.

ethical hacker Anand Prakash has the key to avoid the next Data Breach


Following Uber, Zomato data breach, ethical hacker Anand Prakash has the key to avoid the next



Dec 06, 2017, 12.51 PM IST https://economictimes.indiatimes.com/small-biz/startups/features/following-uber-zomato-data-breach-ethical-hacker-anand-prakash-has-the-key-to-avoid-the-next-hackerhive-appsecure/articleshow/61941715.cms

 
From having no customers during the first three months post launch to spreading a network worldwide, Prakash is keeping an eye out for investors to fund his startup. But he is in no hurry.

Company name: Hackerhive (AppSecure)
Founder name(s): Anand Prakash & Rohit Raj
City it is based out of: Bangalore
Headcount/Strength of the team: 7
Industry: Cyber Security
Investors & Amount raised: None, thus far

There may not be any evidence to suggest that Indians have a relatively lackadaisical attitude towards online privacy than their Western counterparts, but one knows enough to draw a common conclusion.

Yet, irrespective of the level of concern shown, leaks and hacks have been reported from both domestic as well as international tech companies. While Zomato's case ranked high in the list of data breaches globally this year, top US credit agency Equifax and ride-hailing company Uber has also been accorded a central place in the lineup.

Would a more robust cyber security network have prevented the year's biggest hacks?

"While most of these companies hire a full-time team to spot security flaws, slip ups happen all the time, leading to sensitive data falling into the hands of cyber criminals," says (ethical) hacker Anand Prakash, who founded Hackerhive this year. "In addition to being invasive, solving these data breaches can be time-consuming and ridiculously expensive," he adds.

While working as a security engineer for Flipkart, Prakash used to participate in bug bounty programs hosted by tech behemoths like Google, Facebook, Twitter, PayPal and Yahoo, among others. By inviting third-party hackers and external researchers to identify stealth viruses within an application, these companies are clamping down attempts of cyber attacks - before they actually happen.

This is a practise that is commonplace among global tech giants, but oddly missing back home despite the push for Digital IndiaBSE -3.60 %, which seeks to improve online connectivity - correspondingly increasing the risk of such attacks.

Digital drive

Incorporated in May 2016 as cyber security startup AppSecure, it was rebranded to Hackerhive after Prakash collaborated with (co-founder) Rohit Raj to launch a dedicated bug bounty platform for the company. This works as an aggregator that connects companies and ethical hackers to help the former discover and fix security vulnerabilities.

"Although both Rohit and I have a lot of experience running bug bounty programs for other companies on their invitation, it was still a challenge to report security loopholes in other firms without alarming them," says Prakash. "We then decided to launch a platform which legitimizes this practise without intimidating potential clients," he adds.

How does the platform work?

A group of hackers - screened, vetted and deployed by the founders - look for loopholes in a company's product and shares it with them. In return, they are incentivized for each bug reported. Although the compensation value varies depending on the type of bug discovered and the size of the company involved, it will not be a stretch to say that the exercise is as satisfying as it is lucrative.

"This collaboration between our hackers and the company's internal security team can help thwart critical vulnerabilities before the criminals get to exploit them," says Prakash. "It is prudent to take the extra help to plug security loopholes and who better than hackers to do that job for them?" he adds.


Big to small

All of 24, Prakash has crossed an enviable list of milestones for an entrepreneur his age. In addition to being featured among Forbes 30 under 30 Asia

grouping this year, he has also consistently been among the top hackers - worldwide - for Facebook, Twitter and Uber since 2014.




Anand Prakash ranked 3rd, 4th and 3rd on Facebook hackers worldwide list in 2014, 2015 and 2016, respectively

Prakash has also responsibly reported vulnerabilities for other top companies, including Dropbox, Adobe, eBay, Nokia, Blackberry and SoundCloud, to name a few. Selected as part of Nasscom's 10,000 startups program, the company wants to make an impact on Indian companies too by creating awareness among them about cyber security.

"US firms respond immediately to any report of security bugs, but Indian companies typically get into flight mode," feels Prakash.




Prakash is at number 3 on Twitter hackers worldwide list

"Our main aim is not to run big bounty programs, but to create awareness around cyber security in India," says Prakash. "My experience across companies has helped me build a strong network of hackers, but the real challenge has been to convince companies about the importance of protecting their data. In fact, many did not even have security engineers to handle such cases. This is beginning to change with the emergence of tech-based startups," he adds.

In fact, Prakash has collaborated with a string of new-age companies including Zoomcar, Oyo, FreshMenu and Jugnoo. AppSecure is also Swiggy's third party company for its Security Bug Bounty Program.




Prakash is third on Uber hackers worldwide list for 2017

According to him, Indian companies are beginning to understand the impact data breaches can have on its businesses. Furthermore, they are opening up to external cyber security professionals to test the strength of their safety structures, instead of simply relying on automated analysis.

"Most of the analysis in bug bounty hunting is done manually by hackers and that makes a world of difference in this ecosystem," says Prakash.

"This is because the likelihood of discovering bugs is quite slim when done through automated tools," he adds.

From having no customers during the first three months post launch to spreading a network worldwide, Prakash is keeping an eye out for investors to fund his startup. But he is in no hurry.

"I want to first focus on the quality of work that we do," he says. "This includes spreading awareness about the importance of cyber security in India," he adds.

Monday, 6 February 2017

Data transfer 10 times faster than 5G at 105 gigabits per second

New technology to make data transfer 10 times faster than 5G-The terahertz transmitter.

The new transmitter can achieve communication speed of 105 gigabits per second.Researchers from Japan have developed a terahertz (THz) transmitter capable of transmitting digital data at a rate 10 times or more faster than that offered by the fifth-generation mobile networks (5G). It is expected to appear in 2020.

The
terahertz transmitter could make it possible for the whole content on a DVD (digital versatile disk) to be transferred in a fraction of a second, according to the research scheduled to be presented at the International Solid-State Circuits Conference (ISSCC) 2017 being held from February 5-9 in San Francisco, California.

The terahertz band is a new and vast frequency resource expected to be used for future ultra high-speed wireless communications.

"Terahertz could offer ultra high-speed links to satellites as well, which can only be wireless. That could, in turn, significantly boost in-flight network connection speeds, for example. Other possible applications include fast download from contents servers to mobile devices and ultrafast wireless links between base stations," said one of the researchers Minoru Fujishima, Professor at
Hiroshima University in Japan.

The research group has developed a transmitter that achieves a communication speed of 105 gigabits per second using the frequency range from 290 GHz to 315 GHz.

This range of frequencies are currently unallocated but fall within the frequency range from 275 GHz to 450 GHz, whose usage is to be discussed at the World Radio Communication Conference (WRC) 2019 under the International Telecommunication Union Radio Communication Section (ITU-R).

Last year, the group demonstrated that the speed of a wireless link in the 300-GHz band could be greatly enhanced by using quadrature amplitude modulation (QAM).

This year, they showed six times higher per-channel data rate, exceeding 100 gigabits per second for the first time as an integrated-circuit-based transmitter.

"This year, we developed a transmitter with 10 times higher transmission power than the previous version. This made the per-channel data rate above 100 Gbit/s at 300 GHz possible," Fujishima said.

"We usually talk about wireless data rates in megabits per second or gigabits per second. But we are now approaching terabits per second using a plain simple single communication channel," Fujishima added.

The research group from Hiroshima University, Japan's National Institute of Information and Communications Technology, and Panasonic Corporation plans to further develop 300-GHz ultrahigh-speed wireless circuits.