Tag Archives: Internet of Things

Rodent, Bayer, Digital pest management

Webinar Next Week: How Technology Impacts Pest Management

By Food Safety Tech Staff
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Rodent, Bayer, Digital pest management

Haven’t mastered your pest management processes yet? Don’t miss next week’s complimentary webinar, “New Technology’s Impact on Pest Management in the FSMA Regulated World”. Steven Sklare, president of Food Safety Academy, will guide attendees through how technology can help with FSMA compliance, namely as it relates to pest management. He will also discuss how the IoT has made the mouse trap concept smarter, and how you can use this to your advantage in your company’s facility.

The event, which takes place Thursday, March 5 at 12 pm ET, is sponsored by Bayer Digital Pest Management.

Doug MacDonald, Oracle Retail
Retail Food Safety Forum

To Protect Food Quality, Start With the Data

By Doug Macdonald
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Doug MacDonald, Oracle Retail

Last month, the FDA held a public meeting to discuss its New Era of Smarter Food Safety initiative, with a rallying call to create a more “digital, traceable and safer food system.”

FDA Deputy Commissioner for Food Policy and Response Frank Yiannas made it clear that the FDA is not replacing FSMA. Rather, the goal is to build on it, recognizing changes in the food industry over the last 10 years and the technologies available to tackle new challenges.

This isn’t surprising given continuing quality issues resulting in food recalls and shelf withdrawals. Last year, two major outbreaks of E. coli that were tied to consumption of romaine lettuce made a mark on industry perceptions, impacting customer trust, brand loyalty and the bottom line of companies involved were affected. Research by Allianz found recall costs could reach $10,000,000 for significant events.

To achieve the FDA’s goal of end-to-end traceability, the amount of information carried by every food item needs to increase, as will information about its location and condition in the supply chain. Grocers are at the sharp end of the food chain, meaning everything the FDA is proposing will impact them. As well as being merchandisers, they are brand-owners in their own right. They work directly with farmers and growers, they are directly involved in food safety, storage and distribution, and they feel the impact of recalls more than most. Unlike others in the food chain, they interact with consumers daily. This is important to note, since consumers are expecting communication on recalls immediately. In a recent study of more than 15,800 global consumers, 66% of respondents noted that they expect immediate notification of a product recall and another 28% stated they expect notification within a week.1 Furthermore, 88% said if a retailer immediately informed them of an issue, they would be more likely or slightly likely to trust them. The study also found that only 16% of consumers completely trust the product information provided to them from retailers today. In short, the impact of recalls extends far beyond the empty store shelf, and gives the industry even more reason to strive for safety.

High-Tech Next Steps

The FDA plans to publish a strategic blueprint early in 2020 of planned actions to meet its goal, but food brands and grocers need not wait to act. Proven technologies like brand compliance solutions, combined with emerging blockchain track and trace solutions and Internet of Things (IoT) sensors can add new depth and detail to traceability in the food supply chain, and these new technologies are already helping grocers and retailers keep consumers safe.

As retailers have sought a better means to track supply chain movements, blockchain technology has emerged as a potential way forward. Originally developed to manage financial transactions involving cryptocurrency, blockchain has proven to be capable of providing a verifiable record of the movement of goods through a supply chain. In fact, one major retailer has been piloting blockchain for more than a year and has already proven its value on produce items, cutting traceability times from more than a week to a matter of seconds. Some want to go even further and use IoT sensors to monitor the condition (e.g., temperature) of food products in the supply chain. Together, blockchain can help trace the path a product took through the supply chain and IoT can monitor the environmental conditions en route, providing a more cohesive picture of its supply chain journey.

But while supporting a few simple products with one ingredient and a one-step supply chain, such as fruits or vegetables, is one thing, scaling to address the needs of the average private brand retailer—now handling more than 10,000 active products from 2,000 production sites globally—is another. Managing the complexity of a product like tiramisu or a ready-made meal with dozens of ingredients, all coming from different sources, needs a different approach. To address the complexity, many are turning to brand compliance solutions—trusted, real-time repositories of information spanning the entire supply chain. For example, those using brand compliance solutions now have complete visibility of the ingredients in their private label products, helping them ensure labeling accuracy and transparency for consumers. Brand compliance tools also bring improved visibility of the food supply chain, enabling them to verify the status of manufacturing sites and respond quickly to food quality issues.

This combination of detailed product and supplier information makes brand compliance a foundational enabler for any blockchain/IoT-based initiative to improve supply chain visibility and traceability. For example, using brand compliance solutions, grocers can:

  • Confirm the ethical compliance of the supply chain at the point of selection or review, while using blockchain/IoT to monitor the ongoing conformance to these standards
  • Validate shelf life claims during formulation, while blockchain/IoT monitors logistical movement and environments to optimise products’ freshness
  • Record products’ formulation and ingredients to ensure safety, legal compliance and labeling accuracy, with blockchain/IoT monitoring the ongoing conformance to these standards
  • Rapidly identify potential risks across the entire formulation and supply chain, while tracking the affected batches to stores using blockchain and IoT

This convergence of static factual data (e.g., formulation, nutrition and allergens) linked to near real-time traceability and checking offers grocers confidence in the data and supports the consumer’s confidence of an actual product in their basket.

Looking Ahead

It seems clear that the food business is moving in the same direction as airlines and banks and becoming much more data driven. For grocers looking to keep pace, they will need to:

  • Treat data as a core competency. This means hiring information experts, investing for the future, and using data to identify ways to deliver better, safer products.
  • Create a customer-centric value promise. Grocers must go beyond regulatory compliance and use data to improve consumer transparency, support ethical sourcing initiatives, expand sustainable packaging and speed innovation.
  • Go above and beyond. Rather than waiting for FDA direction or simply complying with requirements, brands should take matters into their own hands, hold themselves to high markers and get started now.

In the future, improving the way that we manage the food supply chain is not just about how well we work with trucks and warehouses; it’s about how use information. The FDA’s initiative makes a clear statement that now is the time to modernize our food supply chains. As we look ahead to a new decade, the industry can come together to improve food safety and protect consumers, and we need not wait for the FDA’s blueprint or even the new year to get started.

Reference

  1. Setting the Bar: Global Customer Experience Trends 2019. (2019). Oracle Retail. Retrieved from https://go.oracle.com/LP=86024.
Allison Kopf, Artemis

How Technologies for Cultivation Management Help Growers Avoid Food Safety Issues

By Maria Fontanazza
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Allison Kopf, Artemis

Visibility, accountability and traceability are paramount in the agriculture industry, says Allison Kopf, founder and CEO of Artemis. In a Q&A with Food Safety Tech, Kopf explains how growers can take advantage of cultivation management platforms to better arm them with the tools they need to help prevent food safety issues within their operations and maintain compliance.

Food Safety Tech: What are the key challenges and risks that growers face in managing their operations?

Allison Kopf: One of the easiest challenges for growers to overcome is how they collect and utilize data. I’ve spent my entire career in agriculture, and it’s been painful to watch operations track all of their farm data on clipboards and spreadsheets. By not digitizing processes, growers become bogged down by the process of logging information and sifting through old notebooks for usable insights—if they even choose to do that.

Allison Kopf, Artemis
Allison Kopf is the founder and CEO of Artemis, a cultivation management platform serving the fruit, vegetable, floriculture, cannabis, and hemp industries. She is also is an investment partner at XFactor Ventures and serves on the boards of Cornell University’s Controlled Environment Agriculture program and Santa Clara University’s College of Arts and Sciences.

I was visiting a farm the other day and the grower pulled out a big binder. The binder contained all of his standard operating procedures and growing specifications for the varieties he’s grown over the past 20 years. Then he pulled out a pile of black notebooks. If you’ve ever worked on a farm, you’d recognize grower notebooks anywhere. They’re used to log data points such as yield, quality and notes on production. These notebooks sit in filing cabinets with the hopeful promise of becoming useful at some point in the future—to stop production from falling into the same pitfalls or to mirror successful outcomes. However, in reality, the notebooks never see the light of day again. The grower talked about the pain of this process—when he goes on vacation, no one can fill his shoes; when he retires, so does the information in his head; when auditors come in, they’ll have to duplicate work to create proper documentation; and worse, it’s impossible to determine what resources are needed proactively based on anything other than gut. Here’s the bigger issue: All of the solutions are there; they’re just filed away in notebooks sitting in the filing cabinet.

Labor is the number one expense for commercial growing operations. Unless you’re a data analyst and don’t have the full-time responsibilities of managing a complex growing operation, spreadsheets and notebooks won’t give you the details needed to figure out when and where you’re over- or under-staffing. Guessing labor needs day-to-day is horribly inefficient and expensive.

Another challenge is managing food safety and compliance. Food contamination remains a huge issue within the agriculture industry. E. coli, Listeria and other outbreaks (usually linked to leafy greens, berries and other specialty crops) happen regularly. If crops are not tracked, it can take months to follow the contamination up the chain to its source. Once identified, growers might have to destroy entire batches of crops rather than the specific culprit if they don’t have appropriate tracking methods in place. This is a time-consuming and expensive waste.

Existing solutions that growers use like ERPs are great for tracking payroll, billing, inventory, logistics, etc., but the downside is that they’re expensive, difficult to implement, and most importantly aren’t specific to the agriculture industry. The result is that growers can manage some data digitally, but not everything, and certainly not in one place. This is where a cultivation management platform (CMP) comes into play.

FST: How are technologies helping address these issues?

Kopf: More and more solutions are coming online to enable commercial growers to detect, prevent and trace food safety issues, and stay compliant with regulations. The key is making sure growers are not just tracking data but also ensuring the data becomes accessible and functional. A CMP can offer growers what ERPs and other farm management software can’t: Detailed and complete visibility of operations, labor accountability and crop traceability.

A CMP enables better product safety by keeping crop data easily traceable across the supply chain. Rather than having to destroy entire batches in the event of contamination, growers can simply trace it to the source and pinpoint the problem. A CMP greatly decreases the time it takes to log food safety data, which also helps growers’ bottom line.

CMPs also help growers manage regulatory compliance. This is true within the food industry as well as the cannabis industry. Regulations surrounding legal pesticides are changing all the time. It’s difficult keeping up with constantly shifting regulatory environment. In cannabis this is especially true. By keeping crops easily traceable, growers can seamlessly manage standard operating procedures across the operation (GAP, HACCP, SQF, FSMA, etc.) and streamline audits of all their permits, licenses, records and logs, which can be digitized and organized in one place.

FST: Where is the future headed regarding the use of technology that generates actionable data for growers? How is this changing the game in sustainability?

Kopf: Technology such as artificial intelligence and the internet of things are changing just about every industry. This is true of agriculture as well. Some of these changes are already happening: Farmers use autonomous tractors, drones to monitor crops, and AI to optimize water usage.

As the agriculture industry becomes more connected, the more growers will be able to access meaningful and actionable information. Plugging into this data will be the key for growers who want to stay profitable. These technologies will give them up-to-the-second information about the health of their crops, but will also drive their pest, labor, and risk & compliance management strategies, all of which affect food safety.

When growers optimize their operations and production for profitability, naturally they are able to optimize for sustainability as well. More gain from fewer resources. It costs its customers less money, time and hassle to run their farms and it costs the planet less of its resources.

Technology innovation, including CMPs, enable cultivation that will provide food for a growing population despite decreasing resources. Technology that works both with outdoor and greenhouse growing operations will help fight food scarcity by keeping crops growing in areas where they might not be able to grow naturally. It also keeps production efficient, driving productivity as higher yields will be necessary.

Beyond scarcity, traceability capabilities enforce food security which is arguable the largest public health concern across the agricultural supply chain. More than 3,000 people die every year due to foodborne illness. By making a safer, traceable supply chain, new technology that enables growers to leverage their data will protect human life.

John McPherson, rfxcel
FST Soapbox

End-to-End Supply Chain Traceability Starts with High-Quality Data

By John McPherson
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John McPherson, rfxcel

End-to-end traceability technology across the food and beverage (F&B) supply chain has many benefits for companies at all nodes of the chain, not least of which is the ability to act to prevent problems such as irreversible damage, loss, and theft. For these technologies to best deliver on their promise, however, they need standardized and quality-assured data. F&B supply chain stakeholders need to take steps to achieve effective data management to truly take advantage of the benefits of traceability and real-time monitoring technologies.

Since FSMA was introduced in 2011, actors across the F&B supply chain have had to change their behavior. Prior to FSMA, companies tended to react to events; today, proactive and preemptive measures are the norm. This is in line with what the legislation was designed to do: Encourage the prevention of foodborne illness instead of responding after their occurrance.

F&B manufacturers and distributors rely on technology to help predict potential obstacles and mitigate issues along their supply chains. But expressing a desire to embrace technologies such as real-time monitoring solutions and predictive analytics isn’t enough to achieve ultimate supply chain efficiency. Only by taking the necessary steps can companies get on track to ensure results.

Any company that is thinking about deploying a traceability solution has a lot to consider. Foremost, data must be digitized and standardized. This might seem challenging, especially if you’re starting from scratch, but it can be done with appropriate planning.

Let’s examine what F&B companies stand to gain by adopting new, innovative technologies and how they can successfully maximize data to achieve end-to-end supply chain traceability.

New Technologies Hold Huge Potential for F&B Supply Chains

The advantages of adopting new technologies far outweigh the time and effort it takes to get up and running. To smooth the process, F&B companies should work with solution providers that offer advisory services and full-service implementation. The right provider will help define your user requirements and create a template for the solution that will help ensure product safety and compliance. Furthermore, the right provider will help you consider the immediate and long-term implications of implementation; they’ll show you how new technologies “future-proof” your operations because they can be designed to perform and adapt for decades to come.

Burgeoning technologies such as the Internet of Things (IoT), artificial intelligence (AI) and blockchain are driving end-to-end traceability solutions, bridging the gap between different systems and allowing information to move seamlessly through them.

For example, real-time tracking performed by IoT-enabled, item-level sensors allows companies to detect potential damage or negative events such as theft. These devices monitor and send updates about a product’s condition (e.g., temperature, humidity, pressure, motion and location) while it is in transit. They alert you as soon as something has gone wrong and give you the power to take action to mitigate further damage.

This is just one example of how data from a fully implemented real-time, end-to-end traceability platform can yield returns almost immediately by eliminating blind spots, identifying bottlenecks and threats, and validating sourcing requirements. Such rich data can also change outcomes by, for example, empowering you to respond to alerts, intercept suspect products, extend shelf life, and drive continuous improvement.

As for AI technologies, they use data to learn and predict outcomes without human intervention. Global supply chains are packed with diverse types of data (e.g., from shippers and suppliers, information about regulatory requirements and outcomes, and public data); when combined with a company’s internal data, the results can be very powerful. AI is able to identify patterns through self-learning and natural language, and contextualize a single incident to determine if a larger threat can be anticipated or to make decisions that increase potential. For example, AI can help automate common supply chain processes such as demand forecasting, determine optimal delivery routes, or eliminate unforeseeable threats.

Blockchain has garnered a lot of buzz this year. As a decentralized and distributed data network, it’s a technology that might help with “unknowns” in your supply chain. For example, raw materials and products pass through multiple trading partners, including suppliers, manufacturers, distributors, carriers and retailers, before they reach consumers, so it can be difficult to truly know—and trust—every partner involved in your supply chain. The immutable nature of blockchain data can build trust and secure your operations.

To date, many F&B companies have been hesitant to start a blockchain initiative because of the capital risks, complexity and time-to-value cost. However, you don’t have to dive in head-first. You can start with small pilot programs, working with just a few stakeholders and clearly defining pilot processes. If you choose the right solution provider, you can develop the right cultural shift, defining governance and business models to meet future demands.

To summarize, new technologies are not disruptive to the F&B industry. If you work with an experienced solution provider, they will be constructive for the future. Ultimately, it’s worth the investment.

So how can the F&B industry start acting now?

How to Achieve End-to-End Traceability

Digitize Your Supply Chain. We live in a digital world. The modern supply chain is a digitized supply chain. To achieve end-to-end traceability, every stakeholder’s data must be digitized. It doesn’t matter how big your company is—a small operation or a global processor—if your data isn’t digitized, your supply chain will never reach peak performance.

If you haven’t begun transitioning to a digitalized supply chain, you should start now. Even though transforming processes can be a long journey, it’s worth the effort. You’ll have peace of mind knowing that your data is timely and accurate, and that you can utilize it to remain compliant with regulations, meet your customer’s demands, interact seamlessly with your trading partners, and be proactive about every aspect of your operations. And, of course, you’ll achieve true end-to-end supply chain traceability.

Standardize Your Data. As the needs of global F&B supply chains continue to expand and become more complex, the operations involved in managing relevant logistics also become more complicated. Companies are dealing with huge amounts of non-standardized data that must be standardized to yield transparency and security across all nodes of the supply chain.

Many things can cause inconsistencies with data. Data are often siloed or limited. Internal teams have their own initiatives and unique data needs; without a holistic approach, data can be missing, incomplete or exist in different systems. For example, a quality team may use one software solution to customize quality inspections and manage and monitor remediation or investigations, while a food safety team may look to a vendor management platform and a supply chain or operations team may pull reports from an enterprise resource planning (ERP) system to try and drive continuous improvement. Such conflict between data sources is problematic—even more so when it’s in a paper-based system.

Insights into your supply chain are only as good as the data that have informed them. If data (e.g., critical tracking events) aren’t standardized and quality-assured, companies cannot achieve the level and quality of information they need. Data standards coming from actors such as GS1 US, an organization that standardizes frameworks for easy adoption within food supply chains, can help with this.

There are many solutions to ensure data are standardized and can be shared among different supply chain stakeholders. With recent increases in recalls and contamination issues in the United States, the need for this level of supply chain visibility and information is even more critical.

Data Security. Data security is crucial for a successful digital supply chain with end-to-end traceability, so you must plan accordingly—and strategically. You must ensure that your data is safe 24/7. You must be certain you share your data with only people/organizations who you know and trust. You must be protected against hacks and disruptions. Working with the right solution provider is the best way to achieve data security.

Incentive Structures. Incentives to digitize and standardize data are still lacking across some parts of the F&B supply chain, increasing the chances for problems because all stakeholders are not on the same page.

Companies that continue to regard adopting traceability as a cost, not an investment in operations and brand security, will most likely do the minimum from both fiscal and regulatory standpoints. This is a strategic mistake, because the benefits of traceability are almost immediate and will only get bigger as consumers continue to demand more transparency and accuracy. Indeed, we should recognize that consumers are the driving force behind these needs.

Being able to gather rich, actionable data is the key to the future. Industry leaders that recognize this and act decisively will gain a competitive advantage; those that wait will find themselves playing catch-up, and they may never regain the positions they’ve lost. We can’t overstate the value of high-quality digitized and standardized data and the end-to-end traceability it fuels. If companies want to achieve full visibility and maximize their access to information across all nodes of their supply chains, they must embrace the available technologies and modernize their data capabilities. By doing so, they will reap the benefits of a proactive and predictive approach to the F&B supply chain.

Alec Senese, Bayer Crop Science, Digital Pest Management
Bug Bytes

If You Think Plague Is a Thing of the Past, Think Again

By Alec Senese
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Alec Senese, Bayer Crop Science, Digital Pest Management

Rodents are vectors of more than 50 pathogens, including plague.1 While plague may be considered a problem of the past, according to the World Health Organization, between 2010 and 2015, there were 3,248 cases of reported plague worldwide and 584 deaths. While it is clearly not the 1300’s when the plague killed millions, the CDC confirms, “plague occurs in rural and semi-rural areas of the western United States, primarily in semi-arid upland forests and grasslands where many types of rodent species can be involved.” While the fact that plague is still lurking is a bit surprising, it should be no surprise that rodents can spread more than 50 diseases. Not the least of these diseases is Salmonella braenderup, the cause of recall of approximately 206,749,248 eggs in 2018. The good news: In the age of IoT, new technology can enable an immediate response to help prevent infestations from growing out of control.

With rodent populations on the rise due to climate change and the resultant public health issues in major cities across the United States, public health officials and pest managers face unimaginable challenges in staying ahead of rapidly growing and spreading rodent infestations. Earlier this year, Los Angeles had a typhus outbreak that resulted from a rat infestation near an encampment for those experiencing homelessness. The unsanitary conditions created a harborage for rats that spread the flea-borne illness. Cases of typhoid have doubled in the area since 2012. When and where will the next pathogen outbreak from rodent activity hit?

If that’s not frightening enough, it is important to highlight that once an infected, flea-carrying rodent enters a facility, eliminating the rodent does not always necessarily mean eliminating the presence of plague pathogens. The World Health Organization explains that once vectors have been introduced through rodents and their fleas, it is not enough to eliminate rodents. Vector control must take place before rodent control because “killing rodents before vectors will cause the fleas to jump to new hosts.”

Controlling the spread of pathogens via rodents is becoming increasingly important, particularly in sensitive environments like food processing and manufacturing facilities. Effective management begins with early and accurate detection and sustained through continuous monitoring. However, the traditional method of manual rodent inspection by its very nature cannot provide facility and pest managers with either early detection or continuous monitoring.

Thanks to IoT, monitoring systems can now be used in a wide variety of rodent monitoring devices inside and outside a facility. The systems transmit messages in real time over wireless networks and provide pest managers, facility management and public health officials with 24/7 visibility of rodent activity in a monitored location, which will enable more timely responses and help improve the effectiveness of mitigation efforts. Digital IoT technologies are rapidly becoming the modern proactive tool used to help predict and control rodent issues before they occur in an age when traditional, reactive methods are insufficient.

Reference

  1. Meerburg, B.G., Singleton, G.R., and Kijlstra, A. (2009). “Rodent-borne Diseases and their Risk for Public Health”. Crit Rev Microbiol.
Megan Nichols
FST Soapbox

Tips to Train Employees and Maintain FSMA Compliance

By Megan Ray Nichols
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Megan Nichols

Eight years ago, the government passed FSMA. As a manufacturer, training new and existing employees to remain compliant with legislation is paramount. The goal isn’t to make life harder for business owners—it’s to protect American consumers from unsafe food handling and transportation practices.

The following are five tips to help warehouse managers train employees while maintaining FSMA compliance.

Understand FSMA Final Rules

It’s essential for everyone in the facility, from the CEO to the newest hire, to understand the FSMA rules. According to current Good Manufacturing Practices (cGMP), everyone who works in manufacturing, processing or packaging of food is required to train in food hygiene and safety. Managers can offer training in one of two ways—through on the job experience or via an FSMA-accredited classroom curriculum.

For individuals with specialized jobs, such as quality auditors or preventative controls qualified individuals (PCQI), the training option that allows compliance with FSMA rules is an accredited curriculum.

Utilize Warehouse Management Systems

FSMA gives the FDA authority to issue mandatory recalls for any food products if deemed necessary. To meet FSMA standards, record keeping and lot tracking is a necessity. If a product type is linked to a disease outbreak, the FDA wants to know where each product in that lot is within 24 hours. Having the ability to track and trace 100% of the products ensures that the company is FSMA compliant.

A warehouse management system (WMS) can track products, but only if you train employees in its use. While the average employee won’t be responsible for tracing a production lot in the event of a recall, each worker needs to know how to enter data into the system correctly, and how to retrieve the information if necessary. Include training in your WMS to ensure compliance.

Warehouse management systems, when paired with IoT sensors, can prevent recalls and ensure compliance by monitoring temperature fluctuations in climate-controlled areas. According to the Department of Agriculture, frozen food stored at temperatures at or below -0.4° F is always safe. A comprehensive WMS can monitor the temperature inside a facility’s freezers and alert workers or management if there are dramatic fluctuations that may result in a recall.

Seek Out Alliances

Warehouse managers are not alone when it comes to creating a compliant workplace. The FDA has established and funded three alliances—Produce Safety, Food Safety Preventative Controls, and Sprout Safety—each with their own standardized curriculum designed to help those who fall under FSMA rules.These alliances work for the majority of those in the food production industry, though they may not work for everyone.

Seek out the applicable food safety alliance and see if their training curriculums apply to your facility. Even if they don’t fit directly, these alliances can give managers an excellent place to start creating their training curriculum.

Create a Culture of Compliance

FSMA isn’t designed to make life harder for warehouse managers. Its goal is to keep people safe when buying their weekly groceries. Don’t just focus on training to meet FSMA standards. Instead, create a culture of compliance throughout the facility. Make FSMA everyone’s responsibility, and make it easier for employees to communicate with management if they notice a problem that normal channels don’t address.

As part of this culture of compliance, create incentives that reward employees for reporting problems, maintaining compliance levels and completing accredited training. Sometimes incentives can be the best way to motivate employees, whether you’re offering money, paid vacation or other benefits. Walk employees through the process of how to spot a problem and report it to management.

Continue Education Throughout Employment

FSMA compliance training isn’t something you should restrict to an employee’s onboarding. It’s something you should continue throughout their time at your facility. Make FSMA education a priority for every worker in your facility. While you want to start their training with onboarding, it shouldn’t stop there. Offer new training courses once a month or every three months—as often as you’d like without compromising productivity.

As the day-to-day grind continues, most workers forget about rules and regulations. Continuing education ensures FSMA compliance is at the forefront of everyone’s mind throughout their careers. Continuing your employee’s education is also shown to increase loyalty and reduce turnover, keeping things running smoothly and preventing warehouse managers from training new workers every quarter.

Looking Forward

The FDA oversees food safety and can issue a recall when a problem occurs. Yes, as a whole, it’s the responsibility of every single person working in the food production industry—from the highest-paid CEO to the newest employee on the production floor—to maintain compliance. It’s not enough to review guidelines with new employees during onboarding.

Training is essential to ensure everyone in a facility maintains the rules laid down by FSMA. Seek out assistance in the form of the FDA-funded alliances, continue employee education and make it a point to create a culture of compliance from the moment employees walk through the door. Offer continuous training opportunities and you’ll never have to worry about breaking FSMA rules.

Jeremy Schneider, Controlant

Using Technology for Traceability Adds Dimension to Supply Chain, Promises ROI

By Maria Fontanazza
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Jeremy Schneider, Controlant

“As food safety leaders, it is our responsibility to actively investigate the newest technologies in the market with the goal of providing the highest level of safety for our customers. The regulatory environment is rapidly evolving from a position of hazard management to preventative control, which challenges the status quo while promoting innovation. In addition, we are actively working to build food safety cultures within our operations,” says Jeremy Schneider, business development director, food safety and quality assurance at Controlant. “On top of these mandates, we are consistently being challenged to find ways to improve quality, reduce waste, and assure supply. When taken as a collective mandate, this can be considered a challenge that allows the industry to solve previously unsolvable business problems in new and exciting ways. Utilizing the newest technologies for enhanced supply chain visibility is the solution to some of our most challenging industry-wide problems.”

Schneider has more than 15 years of experience in the food quality, safety, and regulatory sector. His experience spans managing food safety and quality systems within several fast-casual restaurant chains as well as food manufacturing. In a Q&A with Food Safety Tech, Schneider discusses some of the issues that food companies are experiencing surrounding traceability in their supply chain.

Jeremy Schneider, Controlant
Jeremy Schneider, business development director, food safety and quality assurance at Controlant

Food Safety Tech: What challenges are food companies and retailers facing when it comes to real-time monitoring of their supply chain?

Jeremy Schneider: One of the biggest challenges that the industry faces when it comes to real-time monitoring of the supply chain is where to start. As you can imagine, implementing a program that allows for an organization to monitor all shipments, including those that are shipped internationally, by ship, air freight, over the road or by rail, can be daunting.

As with all food safety programs, it is advised to take a risk-based approach to the project. Begin with the highest-risk items within your supply chain and work to your second- and third-tier items or suppliers. When implemented by category over time, you will find implementation less challenging. It is important to remember that when you begin a real-time program, you will start to discover eye-opening information about your supply chain. It’s important that you develop strategies to deal effectively with these incidents.

Another primary concern for the food industry is the cost of implementation, as well as the return on investment. We have found that, by implementing a real-time monitoring solution, an organization is able to dramatically reduce shipping loss because of temperature abuse. Oftentimes, the program provides a net savings for the organization. When considering the cost of wasted food, freight, liability, lost sales and labor, a real-time supply chain visibility solution becomes a cost-effective program very quickly.

FST: Are there any lessons learned from recent outbreaks or recalls regarding traceability?

Schneider: Over the last several years, the industry has made real progress towards a transparent supply chain. However, it must be said that much work is needed to meet regulatory standards and consumer expectations when it comes to traceability. As we have become accustomed to having information that provides insights into all facets of our life, the same is becoming true of the supply chain.

Being able to have business-critical data immediately, such as real-time supply chain and traceability data, is revolutionizing the industry and is allowing enterprise-wide improvements. During a crisis situation, being able to have insights into your supply chain is paramount. Unfortunately, it has become all too common for organizations to take the ‘’out of an abundance of caution’’ approach and remove all products from the supply chain, regardless of lot code or other data, to ensure consumer safety.

The consequence of such an approach is that much more product is removed than necessary, which compounds the effects of the incident. Having had the appropriate traceability information allows organizations to take a precision-focused approach, allowing for organizations to minimize the impact as much as is safely possible.

To help organizations solve this dilemma, there are a variety of technology offerings available to help companies collect and transform data so that it can be easily used. In addition, layering rich data, such as that which is created from real-time Internet-of-Things (IoT) devices and cloud-enabled software technology, helps provide dimensional insights into your supply chain information.

FST: How can companies leverage technology to be proactive in maintaining consistent tracking and tracing throughout the supply chain?

Schneider: As we enter an era of smarter food safety, each organization will be challenged to solve some of the most pressing concerns using state-of-the-art technology. The great thing about having actionable traceability data, beyond its uses to support food safety, is that it allows an organization the ability to gain insights into their supply chain at both the micro- and macro-levels.

As an example, when an organization implements a real-time temperature monitoring program, not only are they able to identify and resolve temperature deviations before they become food safety or quality incidents, logistics can then utilize the data to optimize the shipping lane to reduce costs, and purchasing is able to know exactly where a truck is located on its route. Being able to show the value that location traceability data provides across an enterprise helps to improve the organization at every level.

Marc Pegulu, Semtech
FST Soapbox

Increasing Food Safety and Spoilage Prevention in the IoT Era

By Marc Pégulu
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Marc Pegulu, Semtech

According to the Food and Agriculture Organization of the United Nations, it is estimated that nearly one third of the food produced (about 1.3 billion tons) globally is not consumed. To help tackle this billion-dollar problem, an innovative solution is being deployed to detect one of the key factors driving food waste: Spoilage due to fluctuations in temperature.

To get to the dinner table, food must travel great lengths to preserve that farm fresh quality. Refrigerated shipping units and storage facilities are essential to reducing bacteria growth and by using an automated smart-refrigeration solution, a food-safe environment can be maintained throughout the journey with little supervision. Traditional food temperature monitoring is reliant on staff to periodically check temperature levels and make adjustments as necessary. This process is not scalable, meaning that with a larger facility or an increased number of food displays, it becomes increasingly labor intensive and inefficient. If employees are preoccupied, periodic check-ins may be delayed or missed entirely, leading to gaps where temperature fluctuations are not addressed, opening the door for increased bacteria growth and food waste.

LoRa fights food waste
LoRa devices and LoRaWAN protocol are being integrated into smart refrigeration solutions to fight food waste. Image courtesy of Semtech.

To solve this issue, Internet of Things (IoT) sensors can be deployed in shipping vehicles, displays, refrigerators, and storerooms to provide accurate and consistent monitoring of temperature data. When a temperature fluctuation occurs, the sensors will send a signal to a low power, wide area network (LPWAN) gateway application. The information is then relayed to a network server, where it is routed to application servers or Cloud IoT services. The data is then processed and sent to the end user through a desktop or smartphone application. What’s more, in the event of a power outage, these long range, low power wireless enabled IoT devices are battery powered and consume minimal energy, allowing for consistent off-grid temperature tracking.

These connected devices can be found globally in a variety of use cases ranging from quick service restaurants to full service grocery stores, with an end goal of ensuring appropriate temperature levels for food. To support connectivity for these devices, an open network protocol is used to ensure the devices can be scalable and globally deployed. Two recent use cases where the long range, low power wireless devices and LoRaWAN protocol were used to actively monitor temperature fluctuations are Axino Solutions (Axino) and ComplianceMate.

Axino recently integrated LoRa devices and LoRaWAN protocol into its line of smart refrigeration solutions with the goal of combatting food waste. The solution combines sensor technology with automated data communication providing a substantial increase in measurement quantity and quality. Additionally, stores found a significant reduction in metering and operating costs after sensor deployment. This smart refrigeration solution has been globally deployed and is currently used by Switzerland’s largest supermarket chain, Migos. Axino’s sensors can be quickly installed, utilizing a magnet to attach to a refrigerator’s infrastructure. The sensors monitor temperature in real time, are accurate to one degree Celsius and can be pre-programmed to adjust refrigerator temperatures to ensure that food is stored in a safe environment. By having access to real time data and automatic temperature adjustment, supermarkets were able to eliminate human error, prolong shelf life and pass energy savings off to the customers.

The challenge for any wirelessly connected device is the presence of physical barriers that will block signals. Steel doors, concrete and insulation are some of the key considerations when developing a smart solution, especially in restaurants using large freezers. ComplianceMate partnered with Laird Connectivity and found that devices on a LoRaWAN-based network produces a more reliable signal than its Bluetooth counterpart. This IoT solution has been deployed in some of your favorite restaurant chains such as Shake Shack, Five Guys, Hard Rock Café, City Barbeque, and Hattie B’s and has already proved to be a huge asset. For instance, a sensor deployment saved $35,000 to $50,000 worth of inventory in a Hattie B’s location when downtown Nashville experienced a sudden power outage in 2018. The LoRa-based alert system immediately notified store management, allowing them to act quickly and prevent food spoilage.

Reducing global food spoilage is a monumental task. From farms to grocery stores and restaurants, technology must play a critical role, ensuring food remains at a safe temperature, preventing unnecessary spoilage. In the era of connectivity, businesses will turn to LoRa-based IoT deployments for its flexibility, durability and ability to provide real-time information to employees and decision makers to not only maintain strict industry standards in food safety, but to also pass savings on to their valued customers.

SafeTraces

Seaweed-Based DNA Barcodes Trace Food Throughout Supply Chain

By Food Safety Tech Staff
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SafeTraces

Having the ability to apply barcodes directly to food could change the game of food traceability. One company has developed a patented technology that involves applying a DNA barcode directly to raw materials and finished product to enable traceability of a product throughout the entire supply chain.

Last month SafeTraces, Inc. was granted a U.S. Patent for a new method that encodes and decodes digital information to and from DNA strands. Called safeTracers, these seaweed-based DNA barcodes have been deemed generally recognized as safe (GRAS) by FDA, are non-GMO and Kosher, and can be applied to all food and beverage products, according to SafeTraces. The DNA barcodes were initially developed for low margin industries such as fresh produce, and bulk foods and grains. The safeTracers are generated via the company’s IoT miniDART solution, which creates a unique batch for each lot of product. They are directly applied to food during processing, giving the food item or batch of commodity food a unique tag that contains traceability information.

This technology could be fill a critical piece of the puzzle during a recall, as information about a product could be accessed within minutes.

Alec Senese, Bayer Crop Science, Digital Pest Management
Bug Bytes

Top 3 Things to Know About Digital Rodent Monitoring

By Alec Senese
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Alec Senese, Bayer Crop Science, Digital Pest Management

The future of rodent control is here. The traditional, time-consuming method of manually checking traps just got a lot smarter thanks to the science of IoT (Internet of Things).

What does IoT enable when it meets a device like a mousetrap? 24/7 monitoring, real-time capture alerts and up-to-the-minute program verification. This means that instead of getting caught up in the cycle of checking and scanning empty traps, now there is the ability to immediately respond to a capture alert and spend the time needed to identify the root cause of the problem. The result? Improved efficiency, audit readiness and protection for your business, brand and the public health.

If you’ve been considering the idea of going digital, it’s likely you have a few questions. The following are the top three things you should know about going digital with your rodent monitoring system:

  1. Technology matters. Before taking a shot in the dark, you need to understand that many types of technology exist on the market, each with unique features and varying levels of detection sensitivity and accuracy. Understanding the pros and cons of available systems is a vital ingredient for success.
  2. Not all network platforms are created equal. Network connectivity in complex environments is a key feature to look for when considering digital rodent systems in order to ensure your system is working reliably 24/7. Everyone is familiar with cellular and WiFi networks, but did you know that these communication platforms can be challenged in factories, food processing facilities, convention centers and other complex environments? (Other network platforms exist and you can refer to this article on wireless modules that operate in the sub-GHz bands to compare their features and characteristics).
  3. False positives are common in many technologies available today. False capture alerts destroy the value proposition of remote monitoring and cause headaches and unnecessary labor. Be sure you understand this key performance metric and invest in a system that has solved this issue.