Autonomous Things

Machine learning service provider

Bindu Vijayan

“Autonomous things (AuT), or the Internet of autonomous things (IoAT), is an emerging term for the technological developments that are expected to bring computers into the physical environment as autonomous entities without human direction, freely moving and interacting with humans and other objects…”

To put it simply, Autonomous Things use AI and work unsupervised to complete specific tasks without humans. Devices are enhanced with AI, sensors and analytical capabilities to be able to make informed and appropriate decisions.  They (these devices) work collaboratively between humans and the environment and provide superior performance.  Today AuT work across several environments with various levels of intelligence and capabilities. Some popular examples of these devices are drones, vehicles, smart home devices among others. The components of Autonomous things – software and AI hardware are getting increasingly efficient. With improved technologies (and significantly reducing sensor costs), the variety of tasks and processes that can be automated are increasing, with the advantage of bringing in more data and feedback that can efficiently improve and enhance the benefits of autonomous things.

The technology is used in a wide variety of scenarios – as data collectors from a variety of terrains and environments, as delivery systems (by Amazon, pizza deliveries, etc.), medical supplies to remote areas, etc. Robotics used in the supply chain has proven it reduces/elevates the danger out of the hitherto human tasks in warehouses.  And they probably have the most economic potential currently, followed by autonomous vehicles.  Drones are used to collect data across a wide variety of functions –  for surveillance, security, stock management, weather forecasting, obtaining air data, oceanic data, agricultural planning, etc.

Some fascinating use cases:

Healthcare

Drones are proving to be more and more effective in several ways – they are currently used extensively for surveillance of disaster sites that have biological hazards.  There is no better relevance than the current times when they can actually be used in epidemiology to track disease spread,  and of course for further research and studies.  Drones are facilitating on-demand healthcare by providing medicines to terrains that are difficult to access.  Swoop Aero is one such company that provides medicines via drones.  Drones have brought healthcare into the most remote areas with diagnosis and treatment made available. Remote areas of Africa have their regular medical supplies,  vaccine supplies, lab samples collected, emergency medical equipment made available through Drones. They are also used in telementoring, for perioperative evaluation and so on.  Drones have been very efficient in accessing areas and providing necessary support where ground transport is not reliable or safe or impossible.  Today, most governments have Drones on their national agenda under various sectors. The Delft University of Technology is developing an ambulance drone technology that can be used at disaster sites to increase rescue rates..

Retail

In a world where we have virtual assistants do grocery shopping, replenish stocks, and cooking machines making food, when there is a need to go out shopping, shoppers want to have an easy, fast and frictionless process.  Today, customers do not want to wait in queues and go through conventional checkouts, and Retailers know that they might be losing customers due to their checkout process.  And autonomous shops like Amazon Go are giving that experience to customers where they can purchase without the inconvenience of checkout lines.

Providers of checkout-free shopping technology like ‘Grabango’, use sensor vision and ML to actually hold a virtual shopping basket for every person in the store.  The technology is reputed to process a multitude simultaneous checkout transactions. “Grabango’s system uses high-quality sensor hardware and high-precision computer algorithms to acquire the location of every item in the store. This results in a real-time planogram covering the entire retail environment.” They say it results in increased sales and loyalty, streamlined operations and inventory management and out of stock alerts.

Construction

Companies like Chicago based, Komatsu American Corp., have autonomous haulage stems that have optimized safety in the mining industry like never before. They “help you continue to meet your bottom line while achieving zero-harm” while their focus has been on developing autonomous mining solutions, they have been doing it for more than three decades now! Their FrontRunner AHS has moved more than two billion tons of surface material so far in driverless operations.  Catepillar would be deploying their fleet of autonomous trucks and blast drills for the iron mine in Western Australia – Rio Tinto Koodaideri.  The industry is thriving with autonomous and semi autonomous equipment, and it is evident that it has brought improvements to productivity, and increased profitability. At the Australian mine “autonomous vehicles operated on average 700 hours longer and with 15 per cent lower unit costs”… Similarly, there are other companies like Intsite, a heavy machinery company; their autonomous crane ÁutoSite 100’ does autonomous operation of heavy machinery.

Transportation

Most of us think Tesla when we think autonomous vehicles.  Elon Musk’s dream of providing autonomous ride-sharing has Tesla working on getting out one million robotaxis on the road this year. We will have to wait and see how that is going to pan out. Though autonomous vehicles are the most popular, I suppose it might take a little more time before it finds answers to the regulatory challenges, definitely not an easy task.  It gets quite overwhelming when we think of what we are expecting from autonomous vehicles – it assumes correct performance no matter the uncertainties on the roads and the environment, as well as the ability to face any sort of system failures on its own, and AI is a very critical technology when we are talking real-time decision making. Those sort of scenarios call for a strong computing platform in order to do the analysis at the edge for faster decision making.  The new V2X, which is the 5G vehicle-to-everything is expected to make autonomous vehicles mainstream because the vital information would get transmitted as structured data to the vehicle. V2X is expected to have vehicles interfacing with anything, be it pedestrians, roadside infrastructure, cyclists, etc.

Today, technology is also looking at ‘vehicle platooning’ – “Platoons decrease the distances between cars or trucks using electronic, and possibly mechanical, coupling. This capability would allow many cars or trucks to accelerate or brake simultaneously. This system also allows for a closer headway between vehicles by eliminating reacting distance needed for human reaction.” It has a group of self driving vehicles moving at high speed but safely, as the trucks are in constant communication with each other and use this intelligence to make informed decisions like braking, speeds, etc.  And autonomous trucks and cars can automatically join these platoons or leave, this has the advantages of reduced congestion, fewer traffic collisions, better fuel economy, and shorter commutes during peak hours. 

Conclusion

Studies show that Autonomous things are fast moving to ‘swarm’ or a bunch of intelligent devices, where multiple devices will function together collaboratively, as against the previously isolated intelligent components/ things. They are going to be intelligently networked among themselves and with the environment, and the wider that becomes within every industry, they are going to show phenomenal capabilities. But let’s not forget there is a whole other side to AI, given how unpredictable things are in life, AI would sooner or later have to respond to things that it never saw in training… we still are the smarter ones…

References:

https://en.wikipedia.org/wiki/Autonomous_things

https://www.gartner.com/smarterwithgartner/gartner-top-10-strategic-technology-trends-for-2020/

https://worldline.com/en/home/blog/2020/march/from-automatic-to-autonomous-payments-can-things-pay.html

https://en.wikipedia.org/wiki/Self-driving_car

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6174005/

https://www.komatsuamerica.com/

https://en.wikipedia.org/wiki/Platoon_(automobile)https://grabango.com/

Hyperautomation

Machine learning service provider

Bindu Vijayan

According to Gartner, “Hyper-automation refers to an approach in which organizations rapidly identify and automate as many business processes as possible. It involves the use of a combination of technology tools, including but not limited to machine learning, packaged software and automation tools to deliver work”.  Hyper-automation is to be among the year’s top 10 technologies, according to them.

It is expected that by 2024, organizations will be able to lower their operational costs by 30% by combining hyper-automation technologies with redesigned operational processes. According to Coherent Market Insights, “Hyper Automation Market will Surpass US$ 23.7 Billion by the end of 2027.  The global hyper automation market was valued at US$ 4.2 Billion in 2017 and is expected to exhibit a CAGR of 18.9% over the forecast period (2019-2027).”

How it works

To put it simply, hyper-automation uses AI to dramatically enhance automation technologies to augment human capabilities. Given the spectrum of tools it uses like Robotic Process Automation (RPA), Machine Learning (ML), and Artificial Intelligence (AI), all functioning in sync to automate complex business processes, even those that once called for inputs from SMEs,  implies this is a powerful tool for organisations in their digital transformation journey.

Hyperautomation allows for robotic intelligence into the traditional automation process, and enhances the completion of processes to make it more efficient, faster and errorless.  Combining AI tools with RPA, the technology can automate almost any repetitive task; it automates the automation by identifying business processes and creates bots to automate them. It calls for different technologies to be leveraged, and that means the businesses investing in it should have the right tools, and the tools should be interoperable. The main feature of hyperautomation is, it merges several forms of automation and works seamlessly together, and so a hyperautomation strategy can consist of RPA, AI, Advanced Analytics, Intelligent Business Management and so on. With RPA, bots are programmed to get into software, manipulate data and respond to prompts. RPA can be as complex as handling multiple systems through several transactions, or as simple as copying information from applications. Combine that with the concept of Process Automation or Business Process Automation which enables the management of processes across systems, it can help streamline processes to increase business performance.    The tool or the platform should be easy to use and importantly scalable; investing in a platform that can integrate with the existing systems is crucial. The selection of the right tools is what  Gartner calls “architecting for hyperautomation.”

Impact of hyperautomation

Hyperautomation has a huge potential for impacting the speed of digital transformation for businesses, given that it automates complex work which is usually dependent on inputs from humans. With the work moved to intelligent digital workers (RPA with AI) that can perform repetitive tasks endlessly, human performance is augmented. These digital workers can then become real game-changers with their efficiency and capability to connect to multiple business applications, discover processes, work with voluminous data, and analyse in order to arrive at decisions for further / new automation.

The impact of being able to leverage previously inaccessible data and processes and automating them often results in the creation of a digital twin of the organization (DTO); virtual models of every physical asset and process in an organization.  Sensors and other devices monitor digital twins to gather vital information on their condition, and insights are gathered regarding their health and performance. As with data, the more data there is, the systems get smarter with it, and are able to provide sharp insights that can thwart problems, help businesses make informed decisions on new services/products, and in general make informed assessments. Having a DTO throws light on the hitherto unknown interactions between functions and processes, and how they can drive value and business opportunities.  That’s powerful – you get to see the business outcome it brings in as it happens or the negative effect it causes, that sort of intelligence within the organization is a powerful tool to make very informed decisions.

Hyperautomation is the future, an unavoidable market state

hyperautomation is an unavoidable market state in which organizations must rapidly identify and automate all possible business processes.” – Gartner

It is interesting to note that some companies are coming up with no-code automation. Creating tools that can be easily used even by those who cannot read or write code can be a major advantage – It can, for e.g., if employees are able to automate the multiple processes that they are responsible for, hyperautomation can help get more done at a much faster pace, sparing time for them to get involved in planning and strategy.  This brings more flexibility and agility within teams, as automation can be managed by the teams for the processes that they are involved in.

Conclusion

With hyperautomation, it would be easy for companies to actually see the ROI they are realizing from the amount of processes that have been automated, with clear visibility on the time and money saved. Hyperautomation enables seamless communication between different data systems, to provide organizations flexibility and digital agility. Businesses enjoy the advantages of increased productivity, quality output, greater compliance, better insights, advanced analytics, and of course automated processes. It allows machines to have real insights on business processes and understand them to make significant improvements.

“Organizations need the ability to reconfigure operations and supporting processes in response to evolving needs and competitive threats in the market. A hyperautomated future state can only be achieved through hyper agile working practices and tools.”  – Gartner

References:

IoT Adoption during the Pandemic

Artificial Intelligence for IT Operations

Naveen KT

From lightbulbs to cities, IoT is adding a level of digital intelligence to various things around us. Internet of Things or IoT is physical devices connected to the internet, all collecting and sharing data, which can then be used for various purposes. The arrival of super-cheap computers and the ubiquity of wireless networks are behind the widespread adoption of IoT. It is possible to turn any object, from a pill to an airplane, into an IoT-enabled device. It is making devices smarter by letting them ‘sense’ and communicate, without any human involvement.

Let us look at the developments that enabled the commercialization of IoT.

History

The idea of integrating sensors and intelligence to basic objects dates to the 1980s and 1990s. But the progress was slow because the technology was not ready. Chips were too big and bulky and there was no way for an object to communicate effectively.

Processors had to be cheap and power-frugal enough to be disposed of before it finally becomes cost-effective to connect to billions of devices. The adoption of RFID tags and IPV6 was a necessary step for IoT to scale.

Kevin Ashton penned the phrase ‘Internet of Things’ in 1999. Although it took a decade for this technology to catch up with his vision. According to Ashton “The IoT integrates the interconnectedness of human culture (our things) with our digital information system(internet). That’s the IoT”.

Early suggestions for IoT include ‘Blogjects’ (object that blog and record data about themselves to the internet), Ubiquitous computing (or ‘ubicomp’), invisible computing, and pervasive computing.

How big is IoT?

AIOps in Infrastructure Management

IDC predicts that there will be 41.6 billion connected IoT devices by 2025. It also suggests industrial and automotive equipment represent the largest opportunity of connected ‘things’.

Gartner predicts that the enterprise and automotive sectors will account for 5.8 billion devices this year.

However, the COVID-19 pandemic has further enhanced the need for IoT-enabled devices to help the nations tackle the crisis.

IoT for the Government

Information about the movement of citizens is urgently required by governments to track the spread of the virus and potentially monitor their quarantine measures. Some IoT operators have solutions that could serve these purposes.

AIOps platform
  • Telia’s Division X has developed Crowd Insights which provides aggregated smartphone data to city and transport authorities of Nordic Countries. It is using the tool which will track the movement of citizens during the quarantine.
  • Vodafone provides insights on traffic congestion.
  • Telefonica developed Smart steps, which aggregates data on footfall and movement for the transport, tourism, and retail sectors.

Personal data of people will also help in tracking clusters of infection by changing the privacy regulations. For example, in Taiwan, high-risk quarantined patients were being monitored through their mobile phones to ensure compliance with quarantine rules. In South Korea, the officials track infected citizens and alert others if they come into contact with them. The government of Israel went as far as passing an emergency law to monitor the movement of infected citizens via their phones.

China is already using mass temperature scanning devices in public areas like airports. A team of researchers at UMass Amherst is testing a device that can analyze coughing sounds to identify the presence of flu-like symptoms among crowds.

IoT in Health care

COVID-19 could be the trigger to explore new solutions and be prepared for any such future pandemics, just as the SARS epidemic in 2003 which spurred the governments in South Korea and Taiwan to prepare for today’s problems.

IT operations analytics

Remote patient monitoring (RPM) and telemedicine could be helpful in managing a future pandemic. For example, patients with chronic diseases who are required to self-isolate to reduce their exposure to COVID-19 but need continuous care would benefit from RPM. Operators like Orange, Telefónica, and Vodafone already have some experience in RPM.

Connected thermometers are being used in hospitals to collect data while maintaining a social distance. Smart wearables are also helpful in preventing the spread of the virus and responding to those who might be at risk by monitoring their vital signs.

Connected thermometers are being used in hospitals to collect data while maintaining a social distance. Smart wearables are also helpful in preventing the spread of the virus and responding to those who might be at risk by monitoring their vital signs.

Telehealth is widely adopted in the US, and the authorities there are relaxing reimbursement rules and regulations to encourage the extension of specific services. These include the following.

  • Medicare, the US healthcare program for senior citizens, has temporarily expanded its telehealth service to enable remote consultations.
  • The FCC has made changes to the Rural Health Care (RHC) and E-Rate programs to support telemedicine and remote learning. Network operators will be able to provide incentives or free network upgrades that were previously not permitted, for example, for hospitals that are looking to expand their telemedicine programs.

IoT for Consumers

The IoT promises to make our environment smarter, measurable, and interactive.COVID-19 is highly contagious, and it can be transmitted from one to another even by touching the objects used by the affected person. The WHO has instructed us to disinfect and sanitize high touch objects. IoT presents us with an ingenious solution to avoid touching these surfaces altogether. Hands-free and sensor-enabled devices and solutions like smart lightbulbs, door openers, smart sinks, and others help prevent the spread of the virus.

Security aspects of IoT

Security is one of the biggest issues with the IoT. These sensors collect extremely sensitive data like what we say and do in our own homes and where we travel. Many IoT devices lack security patches, which means they are permanently at risk. Hackers are now actively targeting IoT devices such as routers and webcams because of their inherent lack of security makes them easy to compromise and pave the way to giant botnets.

Machine learning service provider
Machine learning service provider

IoT bridges the gap between the digital and the physical world which means hacking into devices can have dangerous real-world consequences. Hacking into sensors and controlling the temperature in power stations might end up in catastrophic decisions and taking control of a driverless car could also end in disaster.

Overall IoT makes the world around us smarter and more responsive by merging the digital and physical universe. IoT companies should look at ways their solutions can be repurposed to help respond to the crisis.

Enterprise IT infrastructure services
Enterprise IT infrastructure services

References:

  • https://www.analysysmason.com/Research/Content/Comments/covid19-iot-role-rdme0-rma17/
  • shorturl.at/wBFGT

Naveen is a software developer at GAVS. He teaches underprivileged children and is interested in giving back to society in as many ways as he can. He is also interested in dancing, painting, playing keyboard, and is a district-level handball player.

Cognitive Computing

Artificial Intelligence for IT Operations

Kalpana Vijayakumar

Is it possible for a computer to think and act without human intervention? The answer is yes, and that is called Cognitive computing.

Cognitive computing includes technology platforms that combine machine learning, reasoning, natural language processing, speech, vision, and human computer intervention that mimic the human brain, and solve problems without human assistance. Cognitive computing involves deep learning algorithms and big data analytics to provide insights.

The purpose of cognitive computing is to build a computing framework that can solve complicated problems without frequent human intervention. To implement it, cognitive computing consortium has recommended the following features.

software test automation platform

Scope of Cognitive Computing

We do have to accept that computers have been faster at calculations and processing than humans for decades. But, in a few cases, they have failed to accomplish the tasks that humans take for granted, like understanding the natural language and recognizing unique objects in the images and processing them. Cognitive computing solves all these challenges. They can act in complex situations and have a far-reaching impact on our lives.

Pera study by the IBM Institute for business value – cognitive computing involves three capabilities. These capabilities are related to the ways people think and demonstrate their cognitive abilities in their day-to-day life.

VDI desktop virtualization software

The current cognitive computing landscape is dominated by large players – IBM, Microsoft, and Google. IBM being the pioneer of this technology has invested $26 bn dollars in big data and analytics, now spends close to one-third of its R&D budget in developing cognitive computing technology. IBM and Google have acquired some of their rivals and the market is moving towards consolidation. Below are the leading players in this market.

virtual desktop infrastructure solutions

IBM Watson

Watson assistant is IBM’s AI product that allows you to build, train, and deploy conversational simulators into any applications, device, or channel.

Most chatbots try to mimic human interactions, which can frustrate the end-user when a misunderstanding occurs. Watson Assistant aims to resolve that. It knows how to handle the end-user sensibly and when to direct queries to a human executive. It can be deployed on any cloud or on-premises environment.

Watson supercomputer processes at a rate of 80 teraflops (i.e. trillion floating-point operations per second).To replicate a high functioning human’s ability to answer questions, Watson accesses 90 servers with a combined data store of over 200 million pages of information, which it processes against six million logic rules.

Microsoft Cognitive Services

The machine-learned smarts that enable Microsoft’s Skype Translator, Bing and Cortana to accomplish tasks such as translating conversations, compiling knowledge and understanding the intent of spoken words are increasingly finding their way into third-party applications that people use every day. The democratization of AI is coming as part of Microsoft cognitive services, a collection of 25 tools that allows developers to add features such as emotions and sentiment, detection, vision and speech recognition and language understanding to their applications with zero experience in machine learning.

“Cognitive services is about taking all the machine learning algorithms and AI smarts that we have in this company and exposing them to developers through APIs so that they don’t have to invent the technology themselves”, Mike Seltzer, a principal researcher in the Speech and Dialog research group at Microsoft’s lab in Redmond, Washington.

Machine learning service provider

Google DeepMind

DeepMind was acquired by Google in 2014 and is considered to be a leading player in AI research. If you have used Google, there’s a high possibility that you’ve interacted with DeepMind in some way, as its deep learning tools have been implemented across the spectrum of Google products and services. Some of the most prominent uses for DeepMind AI includes speech recognition, image recognition, fraud detection, spam identification, handwriting recognition, translation, Google Maps Street View, and Local Search.

ai devops automation service tools

Google devices like an Android Phone or Google Home, have invaded our homes and has impacted our lives. Every time you say, “Okay, Google” followed by a question, DeepMind helps Google Assistant understand what you are saying. Unlike Amazon’s Alexa, which uses eight microphones to understand voice commands, Google Home’s DeepMind-powered voice recognition system requires only two.

Cognitive Scale

Cognitive Scale founded by former members of the IBM Watson team provides cognitive cloud software for enterprises. Cognitive Scale’s augmented intelligence platform delivers insights-as-a-service and accelerates the creation of cognitive applications in healthcare, retail, travel, and financial services. They help businesses make sense from ‘dark data’ – messy, disparate, first and third-party data and drive actionable insights and continuous learning.

Spark Cognition Spark Cognition is an Austin-based start-up formed in 2014. Spark Cognition develops AI-Powered cyber-physical software for the safety, security, and reliability of IT, OT. The technology is more inclined towards manufacturing. It is capable of harnessing real-time sensor data and learning from it continuously, allowing for more accurate risk mitigation and prevention policies to intervene and avert disasters.

Cognitive Computing Use Cases

According to tech pundits, cognitive computing is the future. Many successful and established businesses have already integrated the technology into their business affairs. There are a number of successful use case scenarios and cognitive computing examples that show the world how to implement cognitive computing, efficiently. Let us look at some successful use cases of the technology.

Cora- Intelligent Agent by Royal Bank of Scotland

With the help of IBM Watson, Royal Bank of Scotland developed an intelligent assistant that is capable of handling 5000 queries in a single day. Using cognitive learning capabilities, the assistant gave RBS the ability to analyze customer grievance data and create a repository of commonly asked questions. Not only did the assistant analyze queries, but it was also capable of providing 1000 different responses and understand 200 customer intents. The digital assistant learned how customers ask general questions, how to handle the query, and transfer to a human agent if it is too complicated.

Healthcare Concierge by Welltok

Welltok developed an efficient healthcare concierge – CafeWell. It is a holistic population health tool that is being used by health insurance providers to help their customers with relevant information that improves their health. By collecting data from various sources and instant processing of questions by end-users, CafeWell offers smart and custom health recommendations that enhance the health quotient.

Personal Travel Planner by WayBlazer

Powered with cognitive technology, WayBlazer’s travel planner makes it easier for travelers to plan for trips by asking questions in natural language. The concierge asks basic questions and provides customized results by collecting and processing travel data as well as insights about traveler preferences.

aiops artificial intelligence for it operations

Such type of cognitive-powered tool helps travelers save time while searching for flights, booking hotels, and planning other activities. Travel agents have been successfully using such tools which have helped increase their revenues and customer delight at the same time.

Edge up’s Smart Tool to Manage Fantasy Football Teams via Mobile App

Fantasy Football is a very popular entertainment for more than 33 million people around the globe. With the help of cognitive learning and computing, Edge Up Sports developed a tool and integrated with their mobile app that helped users to draft their fantasy teams by asking simple questions.

aiops digital transformation solutions

The questions, drafted in natural language, making it easier for users to take a decision which is then analyzed by the system by browsing through data about a player across social media, news reports, and gauging user sentiment that help team managers make better decisions.

Conclusion

Cognitive computing doesn’t bring a drastic novelty into the AI and big data industry. Rather, it urges digital solutions to meet human-centric requirements like act, think, and behave like a human in order to achieve maximum synergy from human-machine interaction. It is believed that soon every digital system will be measured based on its cognitive abilities.

Cognitive computing will be a significant step towards digital humanism!

References

About the Author

Kalpana is a database developer. She strongly believes that “It’s not that we use technology, we live technology.” Outside of her professional role, Kalpana is passionate about travelling and watching movies.

Assess Your Organization’s Maturity in Adopting AIOps

IT operations analytics

Anoop Aravindakshan

Artificial Intelligence for IT operations (AIOps) is adopted by organizations to deliver tangible Business Outcomes. These business outcomes have a direct impact on companies’ revenue and customer satisfaction.

A survey from AIOps Exchange 2019, reports that 84% of business owners who attended the survey, confirmed that they are actively evaluating AIOps to be adopted in their organizations.

So, is AIOps just automation? Absolutely NOT!

Artificial Intelligence for IT operations implies the implementation of true Autonomous Artificial Intelligence in ITOps, which needs to be adopted as an organization-wide strategy. Organizations will have to assess their existing landscape, processes, and decide where to start. That is the only way to achieve the true implementation of AIOps.

Every organization trying to evaluate AIOps as a strategy should read through this article to understand their current maturity, and then move forward to reach the pinnacle of Artificial Intelligence in IT Operations.

The primary success factor in adopting AIOps is derived from the Business Outcomes the organization is trying to achieve by implementing AIOps – that is the only way to calculate ROI.

There are 4 levels of Maturity in AIOps adoption. Based on our experience in developing an AIOps platform and implementing the platform across multiple industries, we have arrived at these 4 levels. Assessing an organization against each of these levels, helps in achieving the goal of TRUE Artificial Intelligence in IT Operations.

Level 1: Knee-jerk

Events, logs are generated in silos and collected from various applications and devices in the infrastructure. These are used to generate alerts that are commissioned to command centres to escalate as per the SOPs (standard operating procedures) defined. The engineering teams work in silos, not aware of the business impact that these alerts could potentially create. Here, operations are very reactive which could cost the organization millions of dollars.

Level 2: Unified

All events, logs, and alerts are integrated into one central locale. ITSM processes are unified. This helps in breaking silos and engineering teams are better prepared to tackle business impacts. SOPs have been adjusted since the process is unified, but this is still reactive incident management.

Level 3: Intelligent

Machine Learning algorithms (either supervised or unsupervised) have been implemented on the unified data to derive insights. There are baseline metrics that are calibrated and will be used as a reference for future events. With more data, the metrics get richer. IT operations team can correlate incidents / events with business impacts by leveraging AI & ML. If Mean-Time-To-Resolve (MTTR) an incident has been reduced by automated identification of the root cause, then the organization has attained level 3 maturity in AIOps.

Level 4: Predictive & Autonomous

The pinnacle of AIOps is level 4. If incidents and performance degradation of applications can be predicted by leveraging Artificial Intelligence, it implies improved application availability. Autonomous remediation bots can be triggered spontaneously based on the predictive insights, to fix incidents that are prone to happen in the enterprise. Level 4 is a paradigm shift in IT operations – moving operations entirely from being reactive, to becoming proactive.

Conclusion

As IT operations teams move up each level, the essential goal to keep in mind is the long-term strategy that needs to be attained by adopting AIOps. Artificial Intelligence has matured over the past few decades, and it is up to AIOps platforms to embrace it effectively. While choosing an AIOps platform, measure the maturity of the platform’s artificial intelligent coefficient.

About the Author:

An evangelist of Zero Incident FrameworkTM, Anoop has been a part of the product engineering team for long and has recently forayed into product marketing. He has over 14 years of experience in Information Technology across various verticals, which include Banking, Healthcare, Aerospace, Manufacturing, CRM, Gaming and Mobile.

Customer Centricity during Unprecedented Times

Cloud service for business

Balaji Uppili

“Revolve your world around the customer and more customers will revolve around you.”

Heather Williams

Customer centricity lies at the heart of GAVS. An organization’s image is largely the reflection of how well its customers are treated. And unprecedented times demand unprecedented measures to ensure that our customers are well-supported. We conversed with our Chief Customer Success Officer, Balaji Uppili, to understand the pillars/principles of maintaining and improving an organization’s customer-centricity amidst a global emergency.

Helping keep the lights on

Keeping the lights on – this forms the foundation of all organizations. It is of utmost importance to extend as much support as required by the customers to ensure their business as usual remains unaffected. Keeping a real-time pulse on the evolving requirements and expectations of our customers will go a long way. It is impossible to understate the significance of continuous communication and collaboration here. Our job doesn’t end at deploying collaboration tools, we must also measure its effectiveness and take necessary corrective actions.

The lack of a clear vision into the future may lead business leaders into making not-so-sound decisions. Hence, bringing an element of ‘proactiveness’ into the equation will go a long way in assuring the customers of having invested in the right partner.

Being Empathy-driven

While empathy has always been a major tenet of customer-centricity, it is even more important in these times. The crisis has affected everyone, some more than others, and in ways, we couldn’t have imagined. Thus, we must drive all our conversations with empathy. The way we deal with our customers in a crisis is likely to leave lasting impressions in their minds.

Like in any relationship, we shouldn’t shy away from open and honest communication. It is also important to note that all rumours should be quelled by pushing legitimate information to our customers regularly. Transparency in operations and compassion in engagements will pave the path for more profound and trusted relationships.

Innovating for necessity and beyond

It is said that “Necessity is the mother of invention”. We probably haven’t faced a situation in the recent past that necessitated invention as much as it does now!

As we strive to achieve normalcy, we should take up this opportunity to innovate solutions. Solutions that are not just going to help our customers adjust to the new reality, but arm them with a more efficient way of achieving their desired outcomes. Could the new way of working be the future standard? Is the old way worth going back to? This is the apt time to answers these questions and reimagines our strategies.

Our deep understanding of our customers holds the key to helping them in meaningful ways. This should be an impetus for us to devise ways of delivering more value to our customers.

General Principles

With rapidly evolving situations and uncertainty, it is easy to fall prey to misinformation and rumours. Hence, it is crucial to keep a channel of communication open between you and your customers and share accurate information. We should be listening to our customers and be extra perceptive to their needs, whether they are articulated or not. Staying ahead and staying positive should be our mantras to swear by. The new barometer of customer experience will be how their partners/vendors meet their new needs with care and concern.

Over-communicating is not something we should shy away from. We should be constantly communicating with our customers to reassure them of our resolve to stand by them. Again, it is an absolute must to adjust our tone and not plug in any ‘sales-ly’ messages.

It is easy to lose focus on long-term goals and just concentrate on near-term survival. This may not be the best strategy if we’re looking to stay afloat after all this is over. All decisions must be data-driven or outcome-driven. Reimagining and designing newer ways of delivering value and ensuring customer success will be the true test of enterprises in the near future.

We’re looking at uncertain times ahead. It is imperative to build resilience to such disruptions. One way would be customer-centricity – we should be relentless in our pursuit of understanding, connecting with, and delighting our customers. Resilience is going to be as important as cost and efficiency in a business.

About the Author:
Balaji has over 25 years of experience in the IT industry, across multiple verticals. His enthusiasm, energy and client focus is a rare gift, and he plays a key role in bringing new clients into GAVS. Balaji heads the Delivery department and passionately works on Customer delight. He says work is worship for him, and enjoys watching cricket, listening to classical music and visiting temples.

Resilience

Machine learning service provider

Bindu Vijayan

Even as the world is grappling to understand the full extent of the economic impact of this pandemic,  I read that the pandemic is minting brand new billionaires, with the need for testing kits, vaccines, and medical supplies being so high. Companies who are able to meet the demand surge for these products enjoy boosted shares and have their stocks surging. That’s how things go with technology, it liberates and it enslaves, but it has most certainly helped build resilience and aided us through the unexpected in our response and recovery. Though labor-intensive businesses like food, manufacturing, logistics and some others are badly hit, our societies are still kept functional by technology in many ways.

Technology has raised our resilience as a community, the pandemic has thrown us into situations we have never been through before –  a paralyzed public transportation, no malls, no restaurants, no beaches, no tourism, no visiting our friends, family, and relatives, almost everything that we have taken for granted has been curbed, but technology has enabled us to continue in spite of the crisis.  We still are able to work, have essential supplies and deliveries reach us, get medical assistance, almost everything has been made available, and possible for us to live in the comforts of our home as we comply with the virus curbs.

Working remotely – Reducing human density and following social distancing are key to combatting this virus, and working from home is seeing a lot of success.  Virtual meetings and collaborations have become the ‘now normal’, with added comfort factors like virtual backgrounds to protect the privacy of one’s home. We are all suddenly seeing the relief from not having to navigate those long commute hours, and this transition has actually dropped a few emotional barriers; suddenly it is more visible (and alright) how we are at home, away from the office, and it is humanizing corporate life a little.  We are alright to see (and for others to see us) children being home-schooled, parents dealing with their fuss and outbursts in the background of a meeting, and pets walking around vying for screen space. We are sharing more human aspects of ourselves, there is this shared vulnerability in this situation which is increasing the engagement and connection between co-workers. Though security issues are a concern, there are many advantages in remote working that are emerging for companies.  If this does become the new way of working, organisations can save a great deal on leases, cafeteria, and other maintenance expenses.

Online / Distance Education – Just like offices and businesses having to function largely from home, the student community as well have learnt to rely on online learning.  About 1.57 billion students are reported to have been impacted by this pandemic, and they are currently doing online programs, thanks to great immersive experiences through technologies like augmented reality, virtual reality and others.

Online purchasing – Today undoubtedly, online shopping is a boon, and has come to everyone’s rescue. With such strict lockdowns especially in severely affected areas, people have had to stay in, strictly monitored by the authorities and online shopping is the need of the hour. Grocery e-commerce has soared with shoppers turning online to purchase. Research from Ipsos reports that the largest increase in e-commerce shopping is in Vietnam (57% consumers purchasing online), India (55%), China (50%), and Italy (31%).

Contactless delivery, Drones and Robots – Companies have started ‘contactless delivery’ services with packages being picked up and dropped off at designated locations as this makes it less risky though not entirely virus-proof. Deliveries are also being done by Drones and robots. Drones are even used to walk dogs during these times, disinfect areas,

Entertainment – Be it concerts, be it parties, gaming, physical workouts, it’s all online now, and it’s such a hit with everyone! It’s no more about watching movies at home, technology brings the parties, museums, churches, and ceremonies into our homes now.

Health – Wearable IoT devices to track one’s vitals are proving its worth with each day into the pandemic.  It captures patient information early and allows for faster and more effective treatment. Telehealth is another important aspect of healthcare today.  Today, it is proving particularly helpful for mental health support, given the travel restrictions.

As we operate our businesses away from the office, employees will have to be kept engaged.  Enabled with technology, grave as the pandemic is, employees are empowered to work from home.  Behaviours need to strengthen organizations’ culture, and it is important that the culture is based on trust, transparency and honesty.  It is not easy to make things error-free, but the current scenario demands that expectations are managed well, and the foundation works on mutual loyalty. 

It is not just the employees who are going through anxieties and fears, the same is happening to our customers as well.  Lower productivity, logistics, and other restrictions of lockdowns can disrupt relationships and engagements. Special attention to reinforcing trust and transparency through openness and willingness to engage is imperative. And, through it all,  protect your employees, they are the best ambassadors for your organisation, and employee behaviour and attitude is a very significant driver of customer satisfaction.

“To win in the marketplace, you must first win in the workplace.”Doug Conant

References;