Social distancing: The hidden side

Social distancing: The hidden side

The Plastics and Rubber Institute of Sri Lanka, and the Sri Lanka Association of Manufacturers and Exporters of Rubber Products, together with the assistance of the Export Development Board, conducted a two- day virtual workshop on Advanced Technology/Smart Manufacturing For The Rubber Product Industry In Sri Lanka, in December 2020. Despite the fact that the country was just raising its head from the deleterious aftermath of the first and second waves of Covid -19, the participation was beyond all expectations, thus indicating the weightage placed in keeping abreast of modern trends and moving with times by the industry community and the professionals and I presume that this is the current trend throughout the world.

As a member of the organising committee of the event and more as a hands-on person of the technologists of the not so modern generation, I realised that I was a curious and a rather passive observer of the currently fast unfolding industry scenario. The array of topics presented by local as well as overseas experts on their respective specialties was impressive. They covered Smart Energy Monitoring, IOT Built Industry Automation, Big Data Processing and applications, Conditioned based Monitoring for Maintenance, 3D/4D Printing, Virtual Product Design and Testing, Finite Element Analysis, and Product Failure Analysis.

It made me guessing with fascination, how much the information utilisation scenario in the manufacturing industry has metamorphosed during the past few decades since the times of two great discoveries/inventions, of Charles Babbage and Arthur. C. Clarke, that paved way for the evolution of the Information and Communications revolution. Charles Babbage (1791-1871) was an extraordinarily talented scientist, mathematician, economist and engineer. He is best known today - as he was in his lifetime - for inventing two types of cogwheel calculating machines, the forerunners of the modern computers. It was Arthur CClarke. after the crest of World War II, from his base in Stratford-On-Avon, England, as a young officer in the Royal Air Force, who dabbled in science fiction writing, floated the idea of global communications satellites in a 1945 letter to the publication Wireless World. It will be of interest to learn that the latter made Sri Lanka his second home and contributed in no small way to the development of ICT and astronomy in our country during the sixties and seventies.

As I gathered, with my rather limited knowledge of ICT, that the common features, of the modern-day innovations are generating a vast amount of real time data on all key aspects of the value chain, and interfacing between the value adding activities. Automation and reducing the dependability on the human factor has been another significant trend. Another key driver has been the necessity for reliability, agility and robustness in delivering products and services to the customer in the ever-changing customer preferences, which are again fueled willfully through product promotion and creation of new needs through massive adverting campaigns and mass communications. Companies are increasingly embracing the innovative technologies, to enable business growth, wealth accumulation, contribution to the national economies, which has helped in achieving improved quality of life, particularly in the traditionally termed developed countries.

Right through his anthropogenic evolution, Homo Sapiens or the “thinking man” has been characterised by the use of his brain to find easier and faster ways of doing things, which was an absolutely vital advantage for his survival in the primitive hostile environment. Commencing with use of stone tools, discovery of fire, and iron, this trend has continued throughout the history of mankind. During the more recent period of the last three centuries, which culminated in the Industry 4.0, some key landmarks, which reflect the quest of the mankind to better lives, through increased and efficient resource utilisation can be identified.

Revolutions

This process began in Britain in the 18th century and from there spread to other parts of the world. Although used earlier by French writers, the term Industrial Revolution was first popularised by the English economic historian Arnold Toynbee (1852–83) to describe Britain's economic development from 1760 to 1840. The first industrial revolution came with the advent of mechanisation, steam power and water power. This was followed by second industrial revolution which revolved around mass production and assembly lines using electricity. Henry Ford’s conveyor belt system was put into motion in December 1st of 1913 in his Detroit manufacturing plant. Fully mechanised, or partially mechanised, assembly lines allowed Ford to offer a vehicle for a working family. One of his goals was to have a car that every family could own.

The car that every family would soon come to own was the Model T. His manufacturing plants would go on to produce over 15 million Model Ts and this is due almost entirely to his assembly line. In order to achieve a production of the Model T at such a high rate, he needed to break down the process of assembling the car to make it as efficient as possible to produce, while still being financially accessible.

The third industrial revolution came with electronics, IT systems and automation, which led to the fourth industrial revolution that is associated with cyber- physical systems. Some of the principles of which were the topics of the December Workshop. Generally speaking, Industry 4.0 describes the growing trend towards automation and data exchange in technology and processes within the manufacturing industry, including:

  •  The internet of things (IoT)
  • The industrial internet of things (IIoT)
  • Cyber-physical systems (CPS)
  • Smart manufacture
  •  Smart factories
  • Cloud computing
  • Cognitive computing
  • Artificial intelligence

This automation creates a manufacturing system whereby machines in factories are augmented with wireless connectivity and sensors to monitor and visualise an entire production process and make autonomous decisions. Wireless connectivity and the augmentation of machines will be greatly advanced with the full roll out of 5G

The fourth industrial revolution also relates to digital technologies that can create virtual versions of real-world installations, processes and applications. These can then be robustly tested to make cost-effective decentralised decisions. In short, this should allow for digital transformation and  for automated and autonomous manufacturing with joined-up systems that can cooperate with each other.

Black spots

It can thus be unanimously agreed that the emerging technologies have already resulted in tremendous benefits for mankind and that they have vast future potential in changing the entire human civilisation. While appreciating and accepting the usefulness of the technologies, I cannot refrain from contemplating on the black spots in the white cloth. The disadvantages of the digital technologies have been well documented throughout the world and some of these, include, data security, digital media manipulation, job insecurity, over reliance on gadgets, addiction, depersonalization, and social alienation, and stress related physical and mental illnesses and the list is not exhaustive. Diminishing of the human touch is considered by many, as a matter of grave concern, and its effect on the personal, ethical, family and social has already begun to reveal its dark side.

As an adaptive measure of the new normal mentality that followed the Covid-19 pandemic, “Social Distancing” intruded our day to day activates over the past one and half years. However, on thinking reflectively, it will be evident that Social Distancing actually had its beginnings in the first three industrial revolutions, while it got aggravated in the recent years. Dilemmas and debatable questions as to whether  dehumanisation is still progressing and what will be the outcome, if the current rate of rapid technology trend continues? These will become key challenges for the sociologists and sociopsychologists and the modern HR specialists. Prioritising automation and sub optimisation of the human resource, in the disguise of improving operational efficiency, as a business strategy of maintaining sustainability, could turn out to be short lived.

Over dependence on technology at the expense of losing the much-required human touch and interpersonal relationships, can be witnessed in many of the day-to-day activities, such as internet or online banking, bill payments, buying at super markets, home deliveries, and on-line webinars. I have personal experience of the short comings of on-line lecturing for students and on virtual workshops, which can only be utilised as a stop gap measure. As a person of the “old generation,” I find it an exhilarating experience to walk to the local bank, greet good morning to the staff, and having a friendly chat with the familiar cashier, while getting my transaction done. Some may equate such practices to lack of time management and productivity. Human interaction of this kind holds a special position in countries such as India and Sri Lanka, which has rich religious and cultural heritages, and adopting the new technologies as a panacea for improving all the aspects of efficiency and productivity in an effort be stay competitive can only be a short-term strategy.

It was Robert Frost, the American poet (1874-1963), who once philosophically remarked, “don’t ever take fence down, until you know why it was put up”

Obsolescence due to ineffective use or total non -use which we witness with machinery and equipment, may be applicable to the humans as well. It is said that the human body has about one hundred, vestigial organs, including the appendix, which have become nonfunctional, during the evolutionary process as a result on non-use and obsolescence. (TT)

MICHELIN Connected Fleet Unveils AI Assistant To Streamline Fleet Management

MICHELIN Connected Fleet Unveils AI Assistant To Streamline Fleet Management

MICHELIN Connected Fleet has introduced an artificial intelligence (AI) assistant directly within its MyConnectedFleet web platform, designed to enhance operational efficiency for fleet managers. The new tool delivers immediate, data-driven responses to user queries, significantly reducing the time traditionally spent on manual research and data compilation. By integrating seamlessly into the existing portal, the assistant provides a streamlined approach to managing complex fleet information.

The AI system transforms raw fleet usage data into actionable insights, enabling managers to make quicker, more informed decisions. It supports a wide range of practical requests, from generating reports on driver fuel efficiency and identifying trucks requiring tyre maintenance to checking vehicle availability and calculating monthly fuel costs. The assistant is built as a closed, secure system to ensure the confidentiality of all fleet data, addressing key concerns about information security.

Functioning as a comprehensive partner for managers of heavy goods vehicles, passenger transport and light commercial vehicles, the tool offers real-time analysis of fuel consumption, driver behaviour and journey metrics. It provides immediate answers for both simple safety and cost-related questions and more complex analytical tasks, presenting findings in text or visual formats. Future updates to the solution will be guided by direct customer feedback, ensuring its continuous evolution.

The MICHELIN AI Assistant is currently available to customers across 10 countries, including United Kingdom, United States and several European nations. It leverages over a century of mobility expertise and three decades of data science experience, responding to the belief of most fleet managers that AI will transform their sector. The assistant can also be paired with other technologies, such as onboard cameras and tyre inspection systems, to form a cohesive, practical solution for modern fleet operations.

Sophie Foucque, CEO, MICHELIN Connected Fleet, Europe, Africa and Australia, said, “The AI Assistant is the natural evolution of our DNA, which is built around supporting our customers. Co-developed with some of our largest customers, it offers a more intuitive way to interact with vehicle usage data while removing the need to generate multiple reports. Augmented fleet managers can therefore focus fully on the performance of their operations.”

Continental Debuts Sensor Ready Tyres With Integrated Monitoring Pocket

Continental Debuts Sensor Ready Tyres With Integrated Monitoring Pocket

Continental Tires Americas has introduced Sensor Ready commercial tyres, designed to streamline digital monitoring for fleets of all sizes. Leveraging over a decade of expertise and more than 121,000 connected wheel positions in the Americas, the company continues expanding its data-driven portfolio. The initial rollout features the Conti Coach HA3 product line, underscoring the manufacturer's commitment to digital-first solutions.

A defining characteristic is the integration of a dedicated sensor pocket directly into the tyre during curing, eliminating aftermarket gluing that previously took up to 14 minutes per installation. The pocket securely holds Continental's proprietary sensor, a key ContiConnect ecosystem component that transmits critical metrics like pressure, temperature and mileage. A clear Sensor Ready logo on the sidewall provides immediate visual confirmation of compatibility for fleets, dealers and retreaders.

The new system significantly reduces installation time and labour requirements at maintenance facilities and retread shops while ensuring consistent, reliable sensor placement. Fleets can choose tyres with sensors pre-installed from the factory or opt for quick, tool-free installation later. The Sensor Ready logo facilitates swift decision-making across the tyre's lifecycle, and the integrated pocket remains intact during retreading, allowing efficient sensor reinstallation without compromising casing performance.

Digital monitoring delivers measurable business impact, including reduced fuel consumption, extended tyre life and fewer roadside incidents. For smaller operations, Continental offers ContiConnect Lite, a mobile application providing a plug-and-play monitoring solution. This advancement reinforces Continental's vision of a connected, intelligent tyre ecosystem that enhances safety, sustainability and cost management.

Renato Sarzano, Head of Truck Tires Americas, Continental, said, “Digital tyre monitoring is becoming essential for improving fleet safety, efficiency and sustainability. With Sensor Ready tyres, we are offering one of the most advanced and user-friendly solutions on the market – reducing installation time, improving reliability and making it easier than ever for fleets to adopt connected tyre technologies.”

Enviro Secures Three-Month Extension For Company Reorganisation

Enviro Secures Three-Month Extension For Company Reorganisation

Scandinavian Enviro Systems AB (publ) has secured a three-month extension of its ongoing company reorganisation, as approved by the Gothenburg District Court on 30 June 2026. The revised deadline now extends to 27 August 2026, with Johan Sölveland of Ackordscentralen continuing as the appointed reorganisation administrator. The initial reorganisation proceedings commenced on 27 February 2026.

The extension is strategically designed to facilitate the finalisation of critical long-term financing negotiations and the completion of a formal reorganisation plan. Enviro’s internal timeline projects that the plan will be ready for presentation in August 2026, concurrently with a comprehensive financing package to support its implementation. A key component of the proposal will involve a debt write-down, with non-priority creditors preliminarily offered a minimum 25 percent settlement, payable three months post-plan ratification, though this figure remains subject to revision.

The company maintains that the progress achieved during the initial phase has laid a solid foundation for a successful restructuring. Enviro’s preliminary assessment indicates that the current trajectory supports the ultimate goal of establishing a sustainable, long-term capital framework, with the reorganisation plan proceeding according to schedule.

Genan Strengthens Central European Presence With Major Tyre Recycling Plant Takeover

Genan Strengthens Central European Presence With Major Tyre Recycling Plant Takeover

International environmental company Genan has entered into a definitive agreement to acquire ESTATO Umweltservice's mechanical tyre recycling facility in Weiden, southeastern Germany, from the ATU Group, a major domestic chain for automotive service and repair. The transaction includes a concurrent long-term cooperation pact designed to secure a consistent supply of end-of-life tyres for the plant, which currently processes approximately 45,000 tonnes of such material each year.

This acquisition marks a significant expansion for Genan, which already operates six recycling facilities across Denmark, Germany, Portugal and United States. The company’s existing operations collectively yield an annual production capacity exceeding 400,000 tonnes of processed tyres, establishing it as a substantial player in the international recycling sector.

The strategic move aligns with Genan’s broader growth objectives, particularly its focus on markets offering the most promising long-term prospects. By integrating the Weiden site, the company aims to bolster its footprint in Germany while gaining access to attractive markets in Central and Eastern Europe. A key element of the deal is the partnership with ATU, which guarantees a steady inflow of used tyres collected from the group’s workshops in Weiden and Werl that are unsuitable for direct reuse.

Poul Steen Rasmussen, Genan’s Group CEO, outlined an ambitious investment plan for the Weiden factory, committing a double-digit million-euro sum for a comprehensive upgrade over the coming year. The intention is to construct a technologically advanced production line on the existing premises, leveraging the company’s expertise in industrialising recycling processes. This approach mirrors a previous successful transformation in Portugal, where capacity, efficiency and environmental performance were significantly enhanced.

For ATU, the agreement ensures the professional, long-term processing of the vast quantities of used tyres generated by its workshops. The CEO of ATU Group expressed confidence that the partnership with Genan provides an excellent future for the Weiden site and its employees, combining industrial scale with a clear dedication to sustainable recycling. Both parties view the collaboration as a vital contribution to the circular economy, transforming waste into valuable raw materials.

The acquisition is also seen as a bellwether for the European recycling industry, signalling a phase of consolidation and heightened focus on circularity. Genan’s leadership noted that increasing political emphasis on waste management will drive demand for high-quality recycled materials, a need that requires significant investment in production technology. The group’s operations, which recycle rubber, steel and textile fibres for use in flooring, asphalt and industrial goods, are positioned to capitalise on this growth trajectory. The agreement is currently pending regulatory approval and is anticipated to be finalised shortly.