Life still goes on… A sneak peek to the world of Industrial IoT in the post-COVID

Using IIOT at workplace covid-19 pandemic
Temperature scanning for elevated body temperatures before entering the workplace

We know that the world is in chaos due to the so-called uncontrollable pandemic-COVID-19. It has brought changes to both our personal and professional life in many ways. However, we should acknowledge the fact that this has accelerated the digital transformation of enterprises. Thanks to the concept of the Internet of Things (IoT). This will rewrite the future of today’s companies forever!

Although few companies have been at the forefront of adopting and implementing IoT solutions and AI for their enterprises, Covid-19 has put these technologies to stress test.

Companies that were an early adopter of IoT in the manufacturing field were able to run at lower capacity but still were more productive than the others because their machines could generate data to monitor the performance and longevity of the same. This also enabled the factories to run more efficiently with fewer human resources. Our customers in the Industrial IOT space are seeing an increase in demand for adoption and implementation of their IoT platforms.

Organizations that want to offer a better and safer customer experience with contactless interaction, will adopt IoT faster even if the products are in the beta stage. The supply chain industry will change significantly in the post-COVID world by implementing solutions like delivery robots, drones, and contactless payment options too.

Hats off to companies such as meshek{76}, which is into smart, autonomous farming and precision agriculture, have placed themselves well in advance to cope up with the post COVID scenario. The autonomous robotic system for growing and picking crops without human intervention helps to avoid the contamination of the same while they are being distributed to the market place.

Public utilities are accelerating the adoption of smart metering solutions as they want to reduce the need for maintenance and monitoring professionals with regards to their safety

Even the regular working environment in the workplace is going to be a different one in the post-COVID times. You may see a touchless sanitation facility. The facility managers or the employees could track whether the toilets are cleaned /sanitized regularly with the IoT enabled cleaning equipment that has sensors attached to them that keeps a record of the number of times they are being used.

IoT technology may also be adopted by facility managers to monitor the restroom supplies such as hand soaps’ levels or the number of paper towels/ toilet papers and hence limit the number of unwanted trips made by employees to check on this.

The bottom line, the list of applications of IIoT goes on. It has now become the top priority for every company to prepare for a post-COVID world. We at SequoiaAT make this happen for you by implementing real-time solutions with smart technologies. Check out our customer stories to know more about our IIoT applications.

Sequoia Applied Technologies opens new office in Boston

Sequoia Applied Technologies a leading provider for software engineering service, opened a new office in Boston, Massachusetts, to accommodate rapid growth and leverage the diverse high-technology companies based out of the area.

The new office enables us to serve our customers in the east coast region better and supports the company’s growth strategy. Boston was chosen as a regional hub for the company because of its rich technology background and as it is home to some of the most innovative companies in America. We believe there is a great demand for software engineering services in small to medium-sized companies in the region. Company has appointed Priya Samant who is a Social Impact entrepreneur to lead the Boston office. “This is a great time to join SequoiaAT, with many new initiatives in place that aligns with the needs of high tech companies in the region” said Priya.

Speaking on the occasion Aju Kuriakose, CEO of Sequoia applied Technologies said “The decision to have our east coast office in Boston was a no brainer for our growth strategy as it enables us to be closer to our customers. As Boston is home to many high-tech companies as well as the rich and diverse talent from well-known prestigious colleges and universities, which will help us to expand our software engineering services offerings in the region”

About Sequoia Applied Technologies

Sequoia Applied Technologies is a California-based Software Product engineering services company, focused on providing a broad range of services and solutions in IoT, Cloud, Mobility & Analytics. Sequoia AT works with Startups and fortune 500 companies to help bring innovative products to market. SequoiaAT has enabled over a dozen products in market in past 24 months. SequoiaAT works with its customers as a true partner and offers the extra degree advantage to help then succeed in their goals. SequoiaAT has its engineering offices in Santa Clara, Chennai, & Trivandrum.

Visit www.sequoiaat.com for more information.

https://www.prdistribution.com/news/sequoia-applied-technologies-opens-new-office-in-boston/5626983

Town Hall hosted by Sequoia on Conventional Approached to Unconventional Challenges

The event was moderated by Priya Samant and the speakers were from different industries . The speaker list is included below

Dr Frank-Jürgen Richter, Founder and Chairman, Horasis: The Global Visions Community .

Gopal Goswami, Research Scholar and Social Entrepreneur .

Arushi Nishank, Environmentalist, Entrepreneur and Acclaimed Kathak Dancer.

Madhur Bhandarkar – Acclaimed National Award Winning Filmmaker .

Brahmanand Singh, Director and 2 times National Award Winner .

Mehmood Ali, Founder Don Cinema & Pen N Camera International .

Harshal Pradhan, Political Strategist .

Vikkas Chopra Business Head for Films, Pen Studios .

Dr Christoph Nabzdyk, MD. Asst. Professor of Anesthesiology, Mayo Clinic School of Medicine .

Aju Kuriakose, CEO, Sequoia Applied Technologies .

Leena Pradhan-Nabzdyk, PhD, MBA Assistant Professor of Surgery, Harvard Medical School.

The event was made possible only because of Virendra Rawat – CEO Green Mentors and Geo Murickan – CEO Transfinnovation.

SequoiaAT in 10 Best IoT Solutions Providers of 2019

Sequoia AT is pleased to announce that they are on the list of the CIO bulletin’s 10 Best IoT solution providers for 2019. Speaking on the occasion, COO of the company, KR Gopinath says “I am glad that they recognized what we do here in Sequoia. Our team’s outside the box thinking and persistence for making our customers products better is why we were recognized by the CIO Bulletin.”

SequoiaAT currently has two development centers in Santa Clara (USA) and Trivandrum (India). SequoiaAT is planning on expansion of their development offices in Santa Clara (USA)  & setting up new office in Kochi (India).

Working with passion is the internal theme at Sequoia. And this recognition is a proof of what every Sequoiaan believes in. Ram Mohan (Director) says that “At SequoiaAT the quality starts by ensuring that we hire for our culture. We hire only individuals who are extremely passionate about their work. This enables us to go beyond our customer expectations.”

SequoiaAT was named perviously named in the Top 100 Tech companies founded by Indians in Silicon India Magazine

Complete link to this article in CIO Bulletin can be found at this link 

How AI is changing healthcare

AI in Healthcare
AI in Healthcare

AI is the next big wave which will change we know the world for generations to come.  AI has attracted over $17 billion in investments since 2009  and will add over 15 trillion to world economy by 2030  as per estimates.

The term AI was coined in 1956 and even thought of by ancient philosophers, but Some of the early work in this space was done at Stanford University for treating blood infections. Till about early 2000’s most of the work in AI was limited to universities like MIT, Stanford, Rutgers etc.

 

One of the domains which stands to benefit the most from AI is healthcare. The healthcare industry is advancing in discoveries daily as technology advances in major ways. We have done amazing things in the last few years and currently Artificial Intelligence has been dominating as the main point of interest. AI is being harnessed to increase longevity and health of the human race.

As an example we all know one problem with hospitals is wait times. As a hospital, doctors need to make every second count. With help of AI hospitals can assign beds to patients faster and more effectively. While this may seem like a useless task it prevents having employees do this job, and little by little, it saves a lot of time. In the John Hopkins Hospital, this has been able to see and predict future requests for beds, and even plan for future unavailabilities. As per the recent article in HBR, It decreased wait times, and even allowed them to accept over 50% more new patients from other hospitals. AI can also do the paperwork that takes doctors a significant amount of time, giving them more time to engage with their patients. Every second that AI saves is another second for doctors to save a life.

Besides preparation, AI directly uses Brain Computer Interfaces. This can be used to decode neural activity. Potentially it could be used to help the many people with ALS and strokes, as well as the half a million people yearly that have spinal cord injuries. Neurological problems have been extremely difficult, if not impossible to solve. AI is helping in ways unimaginable 10 years ago. When AI is allowed to look at all the data from patients, it can notice patterns and analyze them in ways that would be humanly unachievable. AI will make sense of data allowing them to predict things that will happen to specific patients with incredible accuracy. AI could take all of the unstructured data and classify them, and this is especially useful as we are expected to double medical data every 73 days from 2020, according to IBM.

Even selfies can be used to find diseases. An algorithm can find the subjects facial features, and predict facial feature abnormalities. Just in a few pictures the AI can analyze things that we would need expensive equipment and preparation to find out. AI with expensive tools such as x-rays and MRI scans, can find out all problems instantaneously. AI is highly useful in predicting patterns. This can be used to predict problems and also patient recovery time. With the right data sets, AI will be able to foresee diseases like seizures and sepsis.

At SequoiaAT we have started taking small steps towards AI in medicine by collaborating with companies in life-sciences and medical domains. We have been working with them on solutions which further this goal.

AI will do everything that humans can do in a fraction of the time, in all helping and curing more people. AI will save unbelievable amounts of money, and even more time, making every second count.

Visualization frameworks for Bio-Informatics

By Anu P

With the advent of fast genome sequencing techniques, biological datasets worldwide have exploded to tremendous sizes today. For instance, a single patient’s sample after sequencing and several stages of data processing and analysis could run into over a Terra byte! Raw sequencing data that comes out of the sequencing machine is at an abstract level of potentially useful information, requiring significant processing to be converted into meaningful form to drive genomics research.

Some of the data conversion steps being highly computation intensive and/or requiring specialized bioinformatics algorithms, a large portion of the bio-informatics data processing pipeline is implemented in the cloud today. However, as the data resident in the “genomics cloud” reaches the hands of the researcher, it is only as good for research as the analytics and visualization capabilities.

Visualization is a graphical representation of data intended to provide the user a qualitative understanding of information. Data visualization techniques greatly enhance the user’s understanding and interpretation of these massive data sets. A visualization-integrated bio-informatics pipeline provides researchers with the ability to explore genomics data and enables them to progressively iterate, backtrack or zero-in on their analysis steps, thereby enabling them to infer high-impact conclusions with an improved degree of confidence within a reasonable time.

The two essential attributes of a successful data visualization framework are:

1)   High interactivity

2)   Performance at the speed of analysis

Interactivity implies the ability to manipulate graphical entities to derive intuitive data representations. Interactive graphics involves the detection, measurement and comparison between points, lines, shapes and images being represented for the effectiveness of user interpretation, accuracy of quantitative evaluation, aesthetics and adaptability. Enhancing data interpretation by varying the views, labelling to retrieve the original data, zooming in to focus the clarity of data, exploring the neighboring points and a user adjustable mapping can create a good data exploration experience to the user.

Consequently, as the user continuously manipulates data (applies filters, adjusts thresholds, tunes parameters like scale and dynamic range of values) to make “research sense” out of the data, the visualization framework should permit

1) Discrete or continuously variable settings with user-friendly controls like text boxes, selection drop-downs, sliders, knobs etc. and

2) Quick redrawing of the updated graphical representation after every change is made in user settings.

General-purpose and traditional analytics software packages that have been adopted in bio-informatics often come with add-on packages for interactive visualization to a basic level of utility for research. With an easy non-programmer model that appeals very much to researchers, these packages provide interactive graphs and plots. Having an in-built web server eliminates the need to install any client applications, all that the user needs is a browser and an URL to point it to.

However, when it comes to enormous datasets that range millions of data points, these in-built/add-on visualization frameworks are found to be incapable of giving the user an acceptable (sub 1-second?) performance each time a user setting is changed. Therefore, guaranteeing an analysis-continuum to the users remains challenging. Besides the rendering stability of these in-built/add-on packages is often found problematic when large data sets are thrown at them, with statistical methods applied on the data. Rendering inaccuracies including gross misrepresentations of data are frequently encountered that expose the limitations of their scalability.

Here comes the need for evaluating, piloting and implementing visualization frameworks based on customized graphical libraries that leverage fast rendering techniques in a browser environment. As was proven by our experiments with multiple fast-visualization techniques, a customized visualization framework for bio-informatics is the sole solution to match the user’s speed of analysis to provide an enhanced time-to-insights experience.

In conclusion, bio-informatics visualization framework needs to be highly interactive and lightning fast to handle data sets in the millions. Further, from the bioinformatics pipeline provider’s perspective, scalability for a large number of concurrent users and security of data are the other key attributes to be satisfied by the visualization framework, as is applicable to the other modules like data transformation and analytics modules in the pipeline.