Quality assurance beyond visual inspection.

Quality assurance should not depend on chance, eyesight, or end-of-line discovery.

On a high-speed food and beverage line, small errors rarely stay small across the wider production environment. A slightly underfilled tray. A seal that doesn’t fully bond. A trace of product caught where it shouldn’t be.

Individually, they seem minor. But multiplied across thousands of units per hour, they turn into waste, rework, complaints and sometimes recalls. And when that happens, it’s not just the business that feels it. Production teams face pressure. Quality managers answer difficult questions. Consumers lose trust.

Many manufacturers still rely heavily on visual inspection to catch these issues. The reality is simple. What you can see is not always what is happening.

The real risk on the filling line
Filling and sealing are deceptively complex stages as speeds are high, materials vary, and environmental conditions can shift throughout the day. Even minor temperature inconsistencies at the seal point can affect integrity.

Manual inspection and standard vision systems have their place, but have limits; sampling means some packs are never checked. Operators rotate. Fatigue sets in. Opaque or multilayer packaging hides defects that traditional cameras cannot easily detect.

Weak or contaminated seals compromise shelf life and, in the worst cases, food safety, highlighting the importance of seal integrity monitoring.

When an issue escapes the line, the consequences move fast. Production stops, stock is quarantined, and teams work late to contain the damage. But it doesn’t end at the factory gates; products may be pulled from shelves, customers inconvenienced, and in serious cases, consumers put at risk. The financial cost is visible, and the human cost is felt.

Quality control without blind spots
Thermal imaging adds a different layer of control. Instead of relying on surface appearance, it measures heat distribution as seals are formed and products move through the line.

The Flir A70 Smart Sensor captures detailed thermal patterns at production speed. Variations in temperature highlight underfills, trapped product in the seal area and inconsistent sealing pressure, even through opaque or printed packaging.

This is not sampling. It is continuous, 100 per cent in-line inspection. Every pack. Every cycle. No sampling gaps. Defects can be rejected immediately, before they progress further downstream or leave the facility, reducing surprises.

From checking to controlling
When thermal inspection is integrated into existing control systems, quality shifts from reactive checking to process control.

Data feeds directly into the plant’s existing platforms, creating a clear, auditable record and supporting HACCP and BRCGS requirements. Edge processing ensures decisions happen instantly, without slowing the line.

For operations teams, the impact is practical and measurable:

• Less product giveaway
• Fewer seal-related rejects
• Reduced rework and downtime
• Stronger compliance documentation
• Greater confidence during audits

Most importantly, it reduces the stress that comes with uncertainty. When operations teams can see exactly what is happening at the seal point, they make decisions earlier and have confidence that the process is under control.

Protecting more than product
In food and beverage manufacturing, quality failures are not just technical events. They affect people, putting reputation at risk and undermining consumer confidence.

Filling Line and Seal Inspection using thermal imaging closes a critical gap. It verifies fill levels and seal integrity on every unit without adding manual workload or slowing production.

Because quality assurance should not depend on chance, eyesight, or end-of-line discovery, it should be built into the process, protecting product, performance and, most importantly, people.

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@flir @mepaxIntPR #TandM #PAuto #Food #Beverage

Accelerating enterprise-scale intelligence.

Next-generation industrial data fabric, providing foundation for highly integrated industrial data platform.

Major advancements to the AspenTech Inmation™ OT Data Fabric have been annoinced by Emerson, establishing it as the foundational enterprise-scale intelligence layer for the AspenTech Inmation Data Platform. The enhanced Inmation OT Data Fabric creates a modern industrial data backbone designed to scale with customers as their digital needs evolve, supporting advanced analytics, AI capabilities and the development of an enterprise operations platform that connects data, context and decision-making across the organisation.

With an always‑on foundation to unify operational technology data, the Inmation OT Data Fabric makes it easier to connect systems, apply consistent context and governance, and deliver trusted, real‑time information wherever it is needed. Running across edge, on‑premise and cloud environments, the data fabric enables industrial companies to standardise how data is managed and shared across the enterprise.

The next-generation data fabric serves as the essential building block of an AI-ready and deeply integrated Inmation Data Platform designed to support a growing suite of modules for virtualisation, workflow engines, applications, private clouds and more. Scalable across legacy and modern environments, the Inmation Data Platform will transform operations without disruption and unlock enterprise-wide visibility, agility and decision intelligence.

“The AspenTech Inmation OT Data Fabric is at the core of how we unify and contextualise industrial data, and its new capabilities significantly strengthen that foundation,” said Claudio Fayad, chief technology officer at Emerson’s Aspen Technology business. “By making the data fabric more scalable, flexible and enterprise-ready, we’ve created the technical underpinning required of our Inmation Data Platform to support analytics, AI‑driven workflows and increasingly autonomous operations over time.”

The latest release of AspenTech Inmation OT Data Fabric simplifies how industrial data environments are deployed, scaled and secured. A new distributed node‑based architecture replaces rigid components with a modular foundation that delivers consistent behaviour across sites while reducing operational complexity. This design enables customers to expand from individual plants to global deployments using a common operating model with centralised security, governance and lifecycle management.

The enhanced data fabric also delivers greater flexibility and scale across distributed industrial environments, enabling end-to-end edge to cloud deployment with consistent operation on Windows and Linux platforms, including lightweight edge systems.

Improvements in hierarchical data modelling, performance and distributed computing allow the fabric to scale horizontally as data volumes and organisational complexity grow. Combined with an embedded web‑based interface and APIs, these capabilities provide a reliable, real‑time foundation for analytics, AI‑enabled workflows and enterprise intelligence initiatives across the customer’s OT infrastructure and the AspenTech Inmation industrial data platform.

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@EmersonExchange @AspenTech @Emerson_News @EMR_Automation  @HHC_Lewis #PAuto #Ai

Critical infrastructure facing delays?

Ireland's consulting engineers discuss barriers to infracture and other projects in Ireland.

The Association of Consulting Engineers of Ireland (ACEI) has welcomed the Government’s Critical Infrastructure Bill but warned that without fundamental reform of procurement and delivery systems, delays to major housing, transport and energy projects will continue. Speaking at the Engineering Ireland’s Future conference at Croke Park recently, new ACEI President Ciarán McGovern said that while the Bill is a positive step toward accelerating the delivery of essential infrastructure projects, it must be matched by wider reform of how infrastructure is planned and delivered.

Ciarán McGovern

McGovern said a more collaborative approach is needed between contracting authorities and the architectural, engineering and construction sectors if Ireland is to deliver its planned €275 billion on roads, schools, hospitals, water and energy grid and homes by 2030.

“The Government’s commitment to the National Development Plan and the scale of planned investment require a fundamental reset in how the public sector bodies collaborate and share risk with the construction and engineering sectors.
We have some of the world’s leading consultancies operating in Ireland, alongside strong domestic expertise. But the current system has become adversarial and legalistic, which undermines better outcomes for the State.
Regarding the Critical Infrastructure Bill, the improved coordination and faster decision-making across public bodies should help reduce delays and provide greater certainty for project delivery across energy, transport and water sectors. It is important that implementation is matched by adequate resourcing and efficient procurement processes, while maintaining robust regulatory and environmental standards.”

Jack Chambers TD

Jack Chambers T.D., Minister for Public Expenditure, Infrastructure, Public Service Reform and Digitalisation also addressed the conference. He provided an update on progress under the Government’s Accelerating Infrastructure Report.

“The government is committing historical investment, combined with unprecedented system reform, to deliver on the promises set out in the National Development Plan and Programme for Government. As we look towards a new era, consulting engineers will be at the heart of infrastructure delivery in the State and I look forward to working with the industry to ensure we deliver for the people of Ireland.”

International keynote speaker Professor Bent Flyvbjerg, a leading authority on megaproject delivery, will also address the event, focusing on international lessons in infrastructure reform and project performance.

Shane Dempsey, Director General at the Association of Consulting Engineers of Ireland also spoke, "As Ireland embarks on a decade of transformative infrastructure projects, we must recognise that investing properly in the design phase is the best insurance policy we have against delays, disputes and decision paralysis that beset projects. Infrastructure projects don't go wrong, they start wrong. Whether it's a mega-project like Metro, or a home renovation, the more investment in time and resources into the design phase is the key indicator of success for project outcomes.
If the accelerating infrastructure report is followed through, then critical infrastructure projects that our society and economy prioritise, will get the go-ahead in months rather than decades. This should reduce the pressure to quickly get a hole in the ground to prevent further delays whilst allowing more time for proper project planning and design.
The Government need to now view engineering design as an investment rather than a service, as it reduces the scope creep, delays and disputes that often beset large scale projects."

The conference brought industry leaders, policymakers and international experts to examine how engineering could shape Ireland’s future in housing delivery, infrastructure development and climate adaptation.

It explored whether infrastructure delivery is accelerating at a rate that could match demand, the role of Irish consulting engineers in the global economy, and the barriers currently impacting project delivery. It also examines major challenges facing the sector, including the engineering talent shortage, the growing use of digital and AI-driven solutions, and the need to build more resilient and sustainable infrastructure.

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@ACEINews  #Engineering #Ireland

Camera for high‑speed industrial inspection.

Kaleido™ is a groundbreaking short‑wave infrared (SWIR) hyperspectral camera from Teledyne DALSA. Engineered to overcome the integration and performance barriers of industrial sorting, Kaleido targets critical applications in recycling, food safety, pharmaceuticals, and waste management. By significantly advancing material discrimination and increasing throughput, Kaleido redefines the cost-to-performance ratio for hyperspectral inspection.

Fully designed and vertically manufactured by Teledyne and encompassing the sensor, spectrograph, and interface, Kaleido delivers up to 1,280 pixel spatial resolution with line rates exceeding 2.3 kHz. This high-speed capability allows for the inspection of higher volumes in less time without sacrificing spectral precision.

“Kaleido represents a paradigm shift in how we leverage the collective power of Teledyne’s global ecosystem. It is a pinnacle of vertical integration, combining deep sensor physics, advanced optical design, and world-class system engineering,” said Sadiq Panjwani, COO, Teledyne Vision Solutions / Senior EVP and General Manager, Machine Vision Cameras Group. "By centralizing our breadth of capabilities, we have dismantled the traditional barriers to hyperspectral deployment: complexity and cost. We aren't just launching a camera. We are providing a scalable solution that fundamentally improves global outcomes by ensuring food safety, driving cleaner manufacturing, and enabling more responsible resource management. This is the future of industrial intelligence."

Kaleido simplifies the user experience with built‑in spectral band selection and spectrograph‑based aberration correction, ensuring consistent calibration across units throughout the full operating temperature range. These innovations reduce system complexity and accelerate time-to-market for machine builders. Additionally, Teledyne has integrated proven features from its award‑winning line scan families, such as metadata tagging and multiple regions of interest (ROI), ensuring that only the most relevant data is delivered to the processing engine for maximum efficiency.

The camera utilises a 10 GigE interface fully compliant with GigE Vision® and GenICam® standards. Optimised for high responsivity, the Kaleido sensor maintains strong signal integrity even in low‑light conditions, allowing for the effective use of modern, energy-efficient SWIR LED lighting. With flexible lens options and a robust global partner network, Kaleido is built for rapid scaling.

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@TeledyneDALSA  #PAuto

New AWG function accelerates automated testing processes.

Arbitrary Waveform Generators (AWGs) are essential tools to generate nearly any possible waveform. Spectrum Instrumentation, a leading provider of more than 70 high-performance AWG products for all kinds of industries, now presents an additional AWG mode for automated testing environments. The new "Sequence Restart Mode" expands the long list of functions, firmware options and software tools to make the AWGs even more versatile. Driven by direct customer demand, Spectrum quickly developed and delivered the new feature as a support task, and provides it now to all customers free of charge.

The already existing "Sequence Mode" provides a straightforward method for generating long-duration signals by looping and linking waveform segments of varying lengths. This capability allows complex waveform chains to be connected seamlessly, creating an almost unlimited stream of test signals. With the addition of the new "Sequence Restart Mode", Spectrum Instrumentation AWGs deliver even greater flexibility. The new mode allows an automatic and ultra-precise restart of the full sequence of looped and linked waveforms upon receiving a trigger event. The trigger-to-output time is always fixed, thus allowing automated test processes to begin anew whenever conditions require, reducing test times and improving overall measurement efficiency.

Driven by customer demand.
The new "Sequence Restart Mode" is a great example of how Spectrum Instrumentation reacts quickly to customers’ requests. The original demand for this mode came from Dr. Johannes Rahm, scientist at the PTB in Germany (Physikalisch-Technische Bundesanstalt/Metrology Institute of the Federal Republic of Germany). His team is responsible for maintaining the legal time in Germany using atomic clocks (cesium fountain clocks).

Commenting on the new Sequence Restart mode, Dr. Rahm said: "For the AWG cards from Spectrum that I use, I needed a special version of the sequence mode to generate RF frequencies. These frequencies are used to manipulate the laser frequencies employed for cooling the atoms and for fluorescence spectroscopy. Spectrum's engineers responded quickly to my request, my tests were successful, and the new mode works exactly as I envisioned."

These situations benefit everyone: while the customer receives a tailored solution for his needs through the Spectrum support, all other users of these instruments gain from an expanding pool of modes and functions.

The new feature is available free of charge for all Spectrum Instrumentation AWGs of the 65xx and 66xx series just through the installation of the latest drivers. Designed for computer-controlled operation, these instruments utilize a unified software toolkit that simplifies system integration and future upgrades. Software support is available for Windows and Linux, with programming examples provided for Python, MATLAB, C++, and LabVIEW, as well as a high-level Python API. All Spectrum products are supported by lifetime technical assistance, delivered directly by Spectrum Instrumentation’s engineering team, along with free software and firmware updates

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@SpecInstruments @mepaxIntPR #TandM #PAuto #Laboratory

On-site oil analysis.

AMETEK Spectro Scientific has announced the launch of TruVu 360™ Fluid IQ, an advanced analytics and intelligence solution designed to transform how maintenance teams understand oil health and anticipate equipment needs.

On-site oil analysis is essential for keeping critical assets running reliably. However, traditional approaches often rely on delayed lab results, fixed sampling intervals and test data viewed in isolation. These constraints can obscure emerging issues and make it difficult to predict when change is coming.

This addresses these challenges by making on-site oil analysis smarter and more forward-thinking.

As an optional, licensed capability available within the TruVu 360™ Enterprise Fluid Intelligence platform, TruVu 360™ Fluid IQ combines on-site test results with historical data and advanced analytics in a secure cloud environment. The system compares each sample against a broad base of historical and comparable data to identify patterns that reveal oil performance, degradation trends and remaining service life.

“Maintenance teams need clearer insight,” said Robert Wopperer, DVP of Sales and Business Development, at AMETEK Spectro Scientific. “TruVu 360™ Fluid IQ is a truly exciting breakthrough, leveraging advanced analytics and intelligence to estimate the remaining useful life of fluids. Helping teams moving from reactive decision-making to forward-looking strategies to optimize maintenance planning.”

Beta users highlighted how TruVu 360™ Fluid IQ brings forecasting, oil health history, and recommendations together in a highly visual format, making it easier to interpret current conditions, communicate insights during routine reviews, and support more truly predictive, condition based maintenance planning.

By identifying relationships and trends across chemistry, wear metals, physical properties and service history, TruVu 360™ Fluid IQ delivers a genuine 360-degree view of oil and equipment health. This holistic intelligence supports predictive servicing, earlier detection of degradation and smarter sampling decisions, helping organisations reduce unnecessary maintenance, avoid premature oil changes and minimise unplanned downtime.

The platform also connects oil analysis insights across sites, supporting a more transparent and collaborative workflow. Findings can be shared easily, ensuring the right information reaches the right people and enabling faster, more confident decision-making.

TruVu 360™ Fluid IQ is available now as an optional, licensed capability within TruVu 360™ Enterprise Fluid Intelligence platform for Cloud users. A localised version is coming soon for Pro users.

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@SpectroSci #PAuto #Laboratory

New drug discovery & development head.

The appointment of Henning Steinhagen as Chief Executive Officer has been announced by Symeres, the leading transatlantic CRDMO for drug discovery and development. This marks a key transition as the company scales its operations and broadens its market reach.

Dr Henning Steinhagen

Dr. Steinhagen succeeds Guillaume Jetten, who has served as CEO and played a key role in strengthening the company’s operational and scientific foundations during a period of growth and transformation.

The appointment marks a planned transition in leadership structure to continue to build on the company’s success. A combination of organic growth and targeted acquisitions has led Symeres to evolve into a fully integrated transatlantic partner, bringing together more than 500 scientists across nine global sites with decades of multidisciplinary expertise in chemistry, biology, ADME-tox and CMC. Dr Steinhagen has a strong scientific background and commercial experience to drive positive business impact for Symeres in its next phase of growth.

Building on this foundation, Dr. Steinhagen will focus on advancing Symeres’ vision of being a crucial partner from discovery through development with its “One Symeres” integrated platform that serves strategic partnerships across biotech and pharma. His scientific background also aligns with the company’s widely recognised scientific expertise.

As a seasoned CEO, board director and R&D executive, Dr. Steinhagen brings more than 25 years of experience across pharma, biotech and the CRO/CDMO sector. He joins from Lario Therapeutics, where he served as CEO and co-founder, as well as Venture Partner at Epidarex Capital. His previous positions include President R&D at Aptuit, where he was a key member of the leadership team responsible for the company’s growth and successful sale to Evotec AG in 2017. Prior to that he acted as SVP and Head of Global Drug Discovery at Grünenthal and held senior roles at Sanofi-Aventis and Bayer Pharma.

Henning Steinhagen holds a PhD in Chemistry and earned an executive MBA degree from the IMD in Lausanne in 2018.

“I was drawn to Symeres because of its unique capabilities and legacy in delivering and supporting biopharma from inception to IND,” said Dr. Steinhagen. “The team brings together deep scientific depth and a way of working that is genuinely collaborative and responsive.”

He added: “With strong foundations in place, the opportunity ahead is to fully realize and unlock the power of integrated services across chemistry and biology. The goal is to create best-in-class solutions to rapidly advance even the most challenging programs for the benefit of our customers and ultimately patients.”

“Recently, we have made strong progress in bringing together our teams, capabilities and culture into one organization,” said Guillaume Jetten. “We are now seeing clear validation from our customers, who value the continuity, scientific depth and collaborative approach we offer. I’m proud of what we’ve achieved and confident that Dr. Steinhagen will build on this momentum and lead Symeres through its next phase of growth.”

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#symeres #Pharma