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Global Thermal Paper Developer Market to Generate Revenue of $34.03 Million by 2030

Global Thermal Paper Developer Market to Generate Revenue of $34.03 Million by 2030
Archives, Global Trade Daily, Market insight, Technology

Global Thermal Paper Developer Market to Generate Revenue of $34.03 Million by 2030

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Global thermal paper developer market was valued at US$ 20.15 million in 2021 and is projected to reach valuation of US$ 34.03 million by 2030 at a CAGR of 6.4% during forecast period 2022-2030.

Thermal paper is currently the most popular kind of paper for printing because it is cheap to produce and can withstand high temperatures. In 2021, thermal paper sales were valued at $3.8 billion, and are expected to grow by 5% each year until 2030. The reason for this growth is simple: thermal paper is most suitable for printing advertising panels, barcodes, labels, bills, ATM receipts, and other products in the global thermal paper developer market that need to be displayed in an environment with high temperatures.

Thermal paper developers are used in the production of thermal printer medium such as receipts, invoices, and statements. The increasing demand for thermal paper is mainly attributed to the growth of digital transactions and the increasing population of consumers using smartphones and other electronic devices.

Another key factor driving the growth of the thermal paper developer market is the increasing adoption of quick printing solutions by various businesses such as restaurants, cafeterias, healthcare institutions, and retail establishments. In addition, recent regulatory changes in major countries such as the US and UK have paved way for widespread use of thermal paper in retail applications.

However, The paper’s popularity comes with a downside: it’s not very environmentally friendly. Thermal paper requires a lot of energy and harmful chemical to produce, which means it has a negative impact on the environment. Additionally, thermal paper releases volatile organic compounds (VOCs), which can have harmful effects on the environment. To mitigate these issues, some companies in the global thermal paper developer market are looking into alternatives to thermal paper, such as electronic print media.

Bisphenol A Generates Over 35% Revenue Global Thermal Paper Developer Market Despite Being Declared as Harmful

Bisphenol A also known as BPA is the most used developer in the production of thermal paper. It is one of the popular plasticizers and is often found in products such as food containers, water bottles, and laptop cases. It can also be found in thermal paper, which is a type of paper that is used to print documents and receipts.

Thermal paper typically contains bisphenol A in levels that are hundreds of times greater than what is found in typical paper. BPA has been shown to have harmful effects on humans and animals. It has been linked to cancer and other health problems, and the EPA has declared it a toxic chemical.

Despite these dangers, bisphenol A continues to be heavily used in the production of thermal paper in the global thermal paper developer market. There are some alternatives to using bisphenol A in thermal papers, but they often cost more or require different manufacturing processes. Until alternatives are available, consumers should choose environmentally friendly options when purchasing thermal papers and products that contain bisphenol A.

Manufacturers use BPA because it helps make thermal paper more durable and smoother. It also helps create the “feel” of plastics. Some manufacturers have stopped using BPA in their products, but it’s still in large quantities. Some countries have banned it altogether, while other countries have only imposed restrictions on its use.

Top Trends in Thermal Paper Developer Market

  • Increase in Usage of Thermal Paper Developer for Labels and Tags

As the portable printing technology advances, there has been an increase in the usage of thermal paper developer for labels and tags. The reason for this is that thermal paper developers offer high-quality prints at low costs. In addition, they are perfect for applications such as labelling and tagging where a quick turnaround is needed.

  • Development of New Thermal Paper Developer Technologies

In order to continue offering high-quality prints at low costs, thermal paper vendors in the global thermal paper developer market have developed new technologies such as direct writing thermal paper developer and sublimation printing thermal paper developer. These technologies help save on ink and print costs while still providing quality prints.

  • Expansion Into Emerging Markets

With the rise in e-commerce, there has been a corresponding increase in the use of thermal paper developer in emerging markets such as Asia Pacific and Africa. This is because these regions are rapidly growing markets with large populations that are seeking improved access to information and goods.

Competition is Fierce in Thermal Paper Developer Market

Global thermal paper market is highly fragmented owing to different application segments across regions. Asia Pacific dominates the market due to high demand for large format thermal papers in commercial and retail printing applications. Europe is estimated to account for third largest share of the global market by 2028., while Asia Pacific will grow at a faster rate due to increasing demand from electronic imaging and print customization products.

In terms of manufacturing processes, many companies in the market are working on improvements such as seamless packaging of complex substrates or improved drying procedures for final prints. By making these changes, these businesses can improve efficiency and throughput while reducing costs associated with producing thermal papers.
Astute Analytica has produced a comprehensive industry report, ‘Thermal Paper Developer market – Global Trends and Forecasts through 2022–2030’ that provides analysis of the industry drivers, competitive landscape, current trends, future outlook for key players in this sector.

Overall, the report on global thermal paper developer market finds that producer competition is fierce and growth prospects are uncertain; however, there are opportunities for those who can seize them fast enough. To stay ahead of the competition, producers will need to improve their efficiency and productivity levels; invest in R&D initiatives to improve product quality; develop new marketing strategies to lure customers away from alternative print solutions; and build stronger partnerships with suppliers and other partners in the value chains.

Top Players in the Global Thermal Paper Developer Market

  • ANAYANG GENERAL CHEMICAL
  • CHAMELEON SPECIALTY CHEMICALS
  • CONNNECT CHEMICAL
  • SOLENIS
  • THE DOW CHEMICAL COMPANY
  • EVONIK INDUSTRIES AG
  • SINOPEC
  • NIPPON SODA CO., LTD.
  • WEIFANG DAYOO BIOCHEMICAL CO., LTD.
  • SABIC
  • TORAY INDUSTRIES, INC.
  • MITSUBISHI CHEMICAL GROUP CORPORATION
  • Other Prominent Players

About Astute Analytica

Astute Analytica is a global analytics and advisory company which has built a solid reputation in a short period, thanks to the tangible outcomes we have delivered to our clients. We pride ourselves in generating unparalleled, in depth and uncannily accurate estimates and projections for our very demanding clients spread across different verticals. We have a long list of satisfied and repeat clients from a wide spectrum including technology, healthcare, chemicals, semiconductors, FMCG, and many more. These happy customers come to us from all across the Globe. They are able to make well calibrated decisions and leverage highly lucrative opportunities while surmounting the fierce challenges all because we analyze for them the complex business environment, segment wise existing and emerging possibilities, technology formations, growth estimates, and even the strategic choices available. In short, a complete package. All this is possible because we have a highly qualified, competent, and experienced team of professionals comprising of business analysts, economists, consultants, and technology experts. In our list of priorities, you-our patron-come at the top. You can be sure of best cost-effective, value-added package from us, should you decide to engage with us.

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How IoT Is Brightening Your Future

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As technology advances, we are witnessing new technologies emerging and changing our manner of life. One such technology is the Internet of Things (IoT) which is providing tremendous benefits for individuals and businesses alike. IoT can be defined as a network of “things” – typically physical objects such as appliances, devices, people, animals, and the like, that are fitted with software, sensors, and other technologies that allow them to connect and share information with other devices over the internet. 

This makes it possible to operate these devices remotely or via voice commands. This technology has revolutionized information transmission and networking capabilities, which has impacted everyday life for the better. Here are some popular IoT technologies and devices that are changing lives today and promising a brighter future ahead.

 Smart home technology

Smart home technology enables homeowners to control devices remotely through their smartphones, tablets, or computers. These devices can range from lights, thermostats, doors, security cameras, and kitchen appliances among others. With a smart home security system, you can be able to monitor your home from wherever you are and protect it from break-ins. A smart thermostat allows you to control heating and cooling. For instance, on a hot day, you can program your thermostat to start cooling the house minutes before you get home.

Ambient sensing is another smart home tech that is growing in popularity among homeowners. This sensing technology is designed to use sensors to gather information and understand a home’s surroundings. For instance, temperature sensors can be used to monitor a home’s temperature to determine if the home operates at a healthy temperature. The benefits of ambient sensing are numerous including improved comfort, reduced property damage, and enhanced security.

 Wearable devices

You can apply wearable devices in various ways such as for leisure, wellness, and personal fitness. These devices have been largely used in healthcare to monitor patients remotely. Monitoring devices are used to measure vital signs in a patient such as temperature, heart rate, glucose levels, and blood pressure. They then send the information to the doctor to keep a record of the patient’s health. In case of abnormalities, the doctor can advise the patient accordingly. In addition, wearable health monitors can send alerts in case the patient has a medical emergency such as seizures or asthma attacks.

IoT is also valuable in tracking patients’ medication. Trackers can be used to remind a patient to take medication or send an alert when they are due for a prescription renewal. If you are taking care of a sick relative, especially the elderly, your work is made easier in that you don’t have to monitor them all the time. You can go about your day, leaving the IoT devices to keep an eye on your patient.

 Smart cars

The invention of smart cars has made driving and vehicle maintenance so much easier. A car fitted with IoT technology can perform various tasks. Technology such as Google Maps on your phone or car dashboard is designed to help you navigate your way from point A to Z. Besides this, your smart car can also do other tasks such as helping you avoid traffic, recommending the shortest route to your destination, and even spotting an empty parking slot for you. In car repair and maintenance, your car can remind you when it is due for regular servicing. In addition, it can help detect car problems and even allow your mechanic to run remote diagnostics if the issue is mechanical. So it would be of great benefit to include a cheap travel insurance for your car in cases when those smart cars show that there is a problem with your vehicle. 

 Smart farming

IoT technology has also been used in agriculture. In such a time when we are experiencing climate change, drought, and other factors that are a modern farmer’s nightmare, IoT makes farming easier and cheaper. For instance, with a smart irrigation system, you can be able to provide just enough water for your crops. The system monitors the soil’s moisture content using sensors and uses the information to water the crops if the moisture level has gone below the set level. This prevents overwatering, which not only saves water but also protects the crops from damage. You can also use IoT technology to measure the health of the soil. The results give valuable insights such as fertilizer requirements, the best crops to plant among others.

 Infant monitor

If you are a parent, you know how keeping an eye on your baby can be tasking. Moreover, just being able to see how your baby is fairing when you are away gives you so much peace of mind. IoT-enabled baby monitors allow you to keep an eye on your baby remotely. It provides real-time information on your baby’s breathing, body temperature, length of sleep, and sleeping postures. You can easily see your baby on video when getting work done in another room or away doing your grocery shopping. Baby monitors also save you from waking up at night unnecessarily to check on your child. These devices can send alerts on your phone if they detect something unusual.

 Conclusion

Technology is surely changing lives for the better. IoT in particular offers improved safety, comfort, peace of mind, and convenience. From smart home tech that includes smart lights, smart appliances, smart security, and more, to other devices such as infant monitors, smart cars, and smart irrigation systems are designed to make your life easier. Moreover, with health wearables, you can have the peace of mind that your doctor is monitoring your health every single second.

 

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The Global Market for Power Electronics is Anticipated to Grow at a CAGR of 5% from 2022 to 2032

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The global market for power electronics is anticipated to reach a value of US$ 28 billion by 2022, growing at a CAGR of 5% from 2022 to 2032. By the end of 2032, it is anticipated that sales of power electronics will generate an opportunity worth an absolute 44 billion dollars. The demand for power electronics in the market is expected to increase due to increasing use across consumer electronics and power-generating industries.

To control the flow of energy, switching electronic circuits are used. These switching electronic circuits are called power electronics. Power electronics are also considered for the conversion of electric power. Semiconductor devices like diodes, transistors, thyristors etc perform such conversions. Power electronics devices have several advantages including optimum forward and reverse backing capabilities, simplified circuits, compact designs, etc. Moreover, power electronics find their applications in the connection of renewable energy resources to power grids, transportation in electric trains, motor drives, and lighting. The major use of power electronic devices is heat sinking as well as soft starting of equipment deploying power electronic devices.

Global Power Electronics Market: Segmentation

The global power electronics market can be segmented into geography, types, and applications. Based on geography, the global power electronics market can be segmented into America, Europe, Asia Pacific, and Middle East & Others. Considering types, the global power electronics market can be segmented into diode rectifiers, ac-dc converters, ac-ac converters, dc-dc converters, dc-ac converters, and static switches. Because of applications, the global power electronics market can be segmented into industrial activities, solar power, wind power, electric cars, aerospace, and consumer electronics.

Global Power Electronics Market: Region-Wise Outlook

In terms of power electronics market value, Asia Pacific is the largest geography. America is the fastest growing region; Europe is considered a very promising market comprising Germany and the UK while the Middle East also grants an impetus to the growth of the global power electronics market.

Global Power Electronics Market: Drivers

Various factors are fueling the growth of the global power electronics market including the rapid use of renewable sources of energy followed by the increase in the adoption of electric cars and defense. ICT, telecommunications, self-monitoring and diagnostics systems, hospitals, and healthcare are the major fields driving the global power electronics market to grow apparently.

Global Power Electronics Market: Restraints

There are various challenges faced by the global power electronics market like high initial costs, and deposition of GaN on silica materials that are in turn very difficult to reach in high voltage ranges. Moreover, manufacturing power electronics is excessively expensive and time-consuming thus posing a restraint to the global power electronics market.

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The Cloud Cost Optimization Guide: 10 Steps to Saving Money on Your Cloud Resources

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The cloud has now become a popular option for businesses at every level. But as the demand for cloud services has grown, so have prices. As a result, firms must look for ways to optimize costs. 

At every business level, there are several hurdles in managing cloud spending. Firms that optimize their cloud services get the most cloud for their money. It ensures steady, affordable cloud operations.

According to studies, cost reduction and control are the main issues with using the cloud. Thus, this is another primary reason for firms to get cloud cost optimized.

The cloud cost optimization guide will show you ten vital steps to help you save money on the cloud. With these steps, you can be sure you are getting the most out of your cloud and optimizing your costs for savings. Read on!

Understanding Cloud Cost Optimization

As businesses move to the cloud, they must be mindful of costs. Cloud cost optimization reduces your cloud spending while improving the quality of your services. 

Cost optimization may also extend to productivity and capacity. But it is often related to cloud spending. The fact remains that many firms’ cloud spaces are not well set up, resulting in extra cloud spending. 

But these costs may lessen with the right cloud cost optimizer and cost optimization methods. There are several ways to optimize cloud costs. But the best approach will vary depending on your specific needs.

10 Steps to Saving Money on Your Cloud Resources

1. Know your Need

You must first determine your needs before selecting a cloud solution. For example, you must choose whether to host on your servers or rent space from a different supplier. You must also decide how much capacity you need and how often.

For example, some tools are now included in cloud service providers, like AWS cost management. So by fishing out unused resources, you can reduce the cost of the cloud. 

A manager must be more careful to unplug the storage from terminated instances. So when setting up a temporary server for a project, admins must remember to take it down once the work is over. 

These actions lead to inflated google cloud costs that bill for resources no longer used. Unused resources may get noticed and removed using a cloud cost optimizer to cut costs.

2. Invest in Cloud Optimizing Tools

Firms may track their cloud usage and identify often-used services using a cost optimizer. So a cloud cost optimizer enables you to pay only for the things that count. Also, it allows the firm to commit to a set amount of cloud expenses over time.

Also, you can get real-time information on your cloud usage from a cloud optimizer. As a result, it decreases the cost of your data center and lets you perform a few repairs.

This goes beyond cost management. Your cloud system is more visible to you with cloud cost control tools. As a result, you can grow and design your services with confidence.

You’ll be able to obtain cloud services at a discount. Thus, it is crucial to reduce the cost of using the cloud.

3. Right Size

Right-sizing is the most cost-effective way to match instance types and sizes to needs. It also involves finding ways to reduce or scale back and not affect the capacity or other conditions.

Right-sizing aids in lowering cloud costs and optimizing cloud use. Also, this enables the best performance from available resources. Right-sizing must become an active process since your resource demands are always changing. 

4. Restrict Your Cloud Spaces

Most firms often give every user access to the cloud to deploy, audit, and debug workloads. Open access may be practical but result in unwanted, wasteful expenses. Users might even forget to close instances after spinning them up.

To avoid this extra cost, firms must only allow people with expertise in the cloud environment to access the cloud. 

5. Use Reserved Instances

Reserved Instances offer a major discount and can help save costs on your cloud resources.

Reserved Instances (RIs) are a cloud cost optimization technique that can save you up to 75% on your AWS bill. RIs allow you to use a certain amount of cloud resources over a period in exchange for a lower hourly price. 

RIs are available for some AWS services, including EC2, RDS, and Redshift. They are best used when you have a predictable workload that will run longer. 

RIs are also an excellent way to lower your cloud bill without making any changes to your infrastructure. You can get them as either a one-time upfront.

6. Use Auto Scaling

Auto Scaling can help you optimize your use of cloud resources. It automates scaling your cloud capacity up or down based on demand.

Enterprises can avoid paying for idle cloud capacity by autoscaling. Native services with autoscaling characteristics are available from cloud providers. These services can help optimize cost and performance. At the same time, it can track and adjust the system scale to meet demands.

Firms pay extra for cloud services without a cloud cost optimization strategy, up to 70%. Think about cost optimization when setting the autoscaling options. For instance, limit workloads of lesser value that don’t need major scaling. Set autoscaling parameters to apply the fewest resources needed to meet demand.

7. Use Spot Instances

Spot Instances allow you to bid on unused EC2 capacity and offer major savings. You will receive the instance if your bid exceeds the current Spot Price. 

Spot Instances are a great way to save on costs, as they can be cheaper than On-Demand instances. But Spot Instances can get interrupted anytime if the Spot Price exceeds your bid price. 

For this reason, Spot Instances are best suited for systems tolerant of interruptions. They include batch processing, big data, and transcoding.

8. Create a Policy Framework

Based on the firm’s needs, there are diverse ways to build such a framework. So it is advisable to list the needs and match the costs to those demands.

With the cloud, managers and their teams can interact, create, and put new ideas into practice. But it also adds new costs and needs a new analysis of how to stay ahead of its unique features.

Cloud policy framework aids in managing those concerns. It expands upon the ideas we set as the foundation of our trusted cloud. This involves openness in our business practices.

9. Estimate Subscriptions With Business Needs

Firms usually overspend on subscriptions and storage. As a result, they hold onto surplus capacity they don’t need. But these huge subscriptions and cloud storage can get predicted based on the firm’s demands. 

As such, they will only pay for the subscription and storage they need. By doing so, they reduce costs and save money.

10. Set Budget

When your firm adopts cloud-based budgeting, there are instant savings tied with it. But it involves outsourcing other tasks that are optional to the firm’s functioning. 

A fixed, recurring amount allocated to operate cloud-based budgeting frees up more resources for use in other areas. This can help with efforts in expansion or different strategies to increase value.

Everyone must know their aims and budgets for a cloud cost optimization plan. So staff and executives should all actively take part in the budget-making process.


Bottom Line

The cloud has become a staple in today’s world. It is scalable and flexible. But the cloud can still be expensive, even with all these benefits. This is especially true if you’re not optimizing cost.

Cloud cost optimization is the duty of the entire business. It is not a one-time task but a continuous process. Thus, creating awareness for everyone using your firm’s cloud-based resources is crucial to make the most use of them.

With the above information, we hope you find it easy to stop your cloud expenses from spiraling.

 

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Archives, Global Logistics, Global Trade Daily, Software

Network Optimization: How to Select the Right Supply Chain Network Optimization Software

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While many companies previously relied on spreadsheets, designing an optimal distribution network requires the use of an advanced software solution to ensure long-term success. With so many vendors and solutions on the market today, selecting the right supply chain network optimization software for your business can feel like a daunting task.

Prior to evaluating different solutions, it is important to first understand your specific needs. Will the software be used for strategic planning—such as long-term decision-making and forecasting—for periodic network analysis, or are you looking for a tactical solution for short-term planning and execution that can also be integrated into an ERP or other management system platform? Answering this question will help you determine which features and functions are critical and which are less important in a supply chain network optimization solution.

While advanced software is necessary due to the complex nature of supply chains today, developing a successful network design also requires industry expertise to achieve maximum value. Additionally, depending on usage and needs, the high cost of network optimization software may not make financial sense for many companies. An experienced supply chain consultant can help you determine the right supply chain network solution based on your business objectives.

Once you have defined the main purpose and requirements of the solution, follow the checklist below to help identify the best supply chain network optimization software for your unique needs.

  • Data Elements: What pieces of information are required to build and run the model? Is all of the required information (manufacturing, storage, intermediary, customer locations, volumes, costs, capacities, timeframe, etc.) readily available and accurate?
  • Data Import: How easily can the information be imported into the model? What formatting is required for import?
  • Data Validation: Can the model validate the information being used to create the model or does that validation need to be completed prior to model build?
  • Baseline Creation: Based on the information required, can a complete and accurate ‘digital twin’ of the current network be created?
  • Baseline Validation: How can the baseline model be validated (cost and volume metrics, locations and lanes) using outputs from the model?
  • Geocoding Level: To what level of accuracy can locations be sited (city/state combination, 3- or 5-digit postal code and/or address level)?
  • Scenario Creation: How easily can scenarios be created off of the baseline? Can the scenarios utilize the same data as the baseline, or do separate databases need to be created?
  • Scenario Validation: How easily and accurately can the scenarios be compared and validated against the baseline from the model outputs?
  • Optimization Criteria & Effectiveness: Can the scenario comparisons take place via the software’s reporting or does this comparison need to be done outside of the model from the model outputs? Can the information be easily compared (cost and volume metrics, locations and lanes) from the model outputs?
  • Solution Mapping: Does the software have mapping capabilities for both baseline and scenario results? Can the mapping be manually manipulated and customized easily?
  • Solution Reporting: Do the reports need to be created or are pre-formatted reports available, easily accessible and understandable? Is there enough reporting functionality to provide the information needed, whether the reports need to be created or are pre-formatted?
  • Center of Gravity (CoG) Modeling (Siting, Number of Nodes, Flow Assignment, etc.): Can the software determine optimal nodes (manufacturing, storage, intermediary) based on volumes and costs alone, or do ‘candidate’ nodes need to be incorporated into the model first and then the model determines optimal flows and which nodes to flow to and from?
  • Transportation Flows Modeling (Cost Sourcing, Mode Optimization, Transit Matrix, Service Levels, Taxes/Tariffs, etc.): Can the software determine optimal sourcing (origin) based on specific business requirements (such as source from only one supplier/warehouse)? Can the software determine optimal mode selection (parcel, LTL, TL, rail, air, ocean) for each flow based on mode criteria and required service levels (no shipment load greater than 44,000lbs., next-day air, 2nd-day ground, within five days, etc.)?
  • Facility Modeling (Capacity Planning, Throughputs, etc.): Can the software optimally flow volumes and manufacture and/or store product based on facility capacity constraints (produce 500K units max annually, 250K square foot storage max, etc.)?
  • Inventory Modeling (SKU Optimization – Quantities & Locations): What level of product granularity (product family vs. SKU level) can the model manage and run efficiently and accurately? Can the software provide optimal cycle, safety and in-transit stock levels and locations?
  • Manufacturing Modeling (Capacity Planning, Work Center Routing, ‘Buy vs. Sell’): In addition to product granularity (product family vs. SKU level), what level of production granularity (facility level vs. work centers within a facility) can the model manage and run efficiently and accurately?
  • Model Accuracy: How accurate (sensible) are the model results? How accurately and efficiently can the model results be compared (via client validation, reporting, etc.)?
  • Ease of Use: How quickly and easily can the software be learned? How easily can the UI be navigated? How understandable is the UI terminology? How easily can model updates be made?
  • Interface Visuals: How visually appealing is the software’s UI? Can the UI, reporting and mapping be used to present to clients or executive leadership?
  • Documentation: Is there sufficient software documentation for training and support? Is the software documentation comprehensive and easily understandable and accessible?
  • Training: Is training offered by the software company? How complete and extensive is the training? Is training documentation provided? Are there any additional training fees?
  • Tech Support: How often is tech support required? Is tech support easily accessible and responsive? Does it require any additional fees?
  • Platform: What platform supports the software (cloud, API, etc.)?
  • Licensing: What is the cost and duration to license the software? Is the licensing fee based on usage (e.g., by project per month) or annually (e.g., a flat 12-month fee regardless of usage)?
  • Additional Costs: Are there any additional fees beyond licensing (training, software usage, geocoding, support, etc.)?
  • Vendor: How long has the software company been in business? How experienced are their personnel?
  • Concerns: Are there any other concerns about contracting and implementing the software?

Ready to improve your supply chain network? At Tompkins Solutions, our consultants utilize cutting-edge technology and their decades of experience to design the optimal supply chain network for your unique needs and objectives. Contact us today to learn how to optimize your distribution network to increase resilience, performance and profit margins.

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Why Digital Acceleration Is the Narrative to Adopt

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Digital transformation has become vital for any business in this digital era. Businesses that have adopted digital technology have by far transformed their organizations and how they do business. This transformation is evident in different business areas such as business processes, customer experience, business model, and strategy among other areas. However, circumstances and technologies are changing at a rapid rate. This calls for a need to increase the speed at which businesses adopt new technologies and digitize their processes if they are to keep up. This is where digital acceleration comes in.

Digital acceleration brings speed and continuity to digital transformation. The strategy ensures that businesses continually adopt new technologies into their business procedures as soon as the organization proves them useful. So, how important is digital acceleration and why should organizations adopt the narrative?

Enhancing scalability

Outdated technology often inhibits scalability as a business grows. This is especially where the technology can’t scale or its scalability doesn’t match the speed of the business growth. Digital acceleration increases business adaptability to rapidly changing circumstances by enabling businesses to adjust or update their technologies as and when needed. In addition, digital acceleration brings in the latest technologies such as cloud computing services. Such technologies eliminate unnecessary delays as well as installation and migration challenges. This enables organizations to scale up efficiently.

Enabling data-driven decision-making

Decisions based on data are always factual, resulting in decisions that empower business growth in all areas. However, data-driven decision-making can result in not too well-informed decisions if the data available is incomplete or inaccurate. Unfortunately, this can lead to mistakes that can be costly down the line.

Digital acceleration enhances data collection and analysis through automation, centralizing data, and information integration. With real-time data and a single source of truth, organizations get access to valuable insights that empower well-informed business decisions.

Optimizing customer experience

The modern consumer is very keen on the experience. In fact, a bigger percentage of customers can pay more for a better experience. So, if any business is to retain its customers longer and acquire new ones, enhancing customer experience is vital.

Digital acceleration allows organizations to adopt technologies that help understand their customers better and what their needs are through improved customer interactions. In addition, adopting mobile technology and optimizing website speed improves customer experience significantly. SEO can help greatly in this area by improving website load speed for both mobile and desktop. Furthermore, SEO can help identify user intent, enabling a personalized experience. And, with a good content strategy, SEO can ensure that you offer answers to customer questions at the right time.

Besides this, working with an SEO company can help your business succeed in the digital acceleration strategy. Digital transformation starts with having a website for your business. However, the efforts would be futile if your target customers don’t know about it. SEO helps your website rank higher in the search engines, which helps in digital acceleration. Through digital marketing strategies such as link building, social media marketing, quality content, keyword usage, and more, you can benefit from increased organic traffic to your website.

Improving competency

As said earlier, digital transformation is a continuous process that requires organizations to continually adopt new technologies as they emerge and as they become necessary. For this reason, members are continually learning different new skills to equip them with the ability to use and even explore the possibilities of these new technologies. This improves digital competency across the organization. What’s more, the skills learned can be utilized in other areas of the organization, increasing innovation across the team.

Increasing business resilience

By definition, business resilience is an organization’s ability to bounce back and ensure business continuity in times of uncertainty. This entails being able to adapt to disruptions quickly and in a way that important business processes aren’t halted.

Digital acceleration enhances digital maturity and enables businesses to adopt new technologies easily and quickly. This prepares businesses to respond quickly to changing circumstances in a crisis, which helps them thrive in unprecedented environments.

Conclusion

In a business environment that changes rapidly, digital transformation isn’t just enough. Digital acceleration has become a strategic necessity for forward-thinking enterprises. Increasing the speed at which businesses adopt useful technologies comes with various business benefits. Businesses are able to build and enhance resilience, improve customer experience, enable data-driven decision-making, empower scalability and ensure competence across the entire organization among other benefits.

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Manufacturing Leaders Are Making Significant Cloud Investments to Remain Ahead of the Competition

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Manufacturing experienced rapid change over the last decade, and the pandemic only accelerated this change. In the mid-2010s, it became known as the Fourth Industrial Revolution because the fusion of emergent technologies was the most disruptive industrial force since the invention of the computer sparked the digital revolution.

Now, advanced technologies like cloud computing, artificial intelligence (AI), and the Internet of Things (IoT) optimize the supply chain. And we’re lucky it does — the pandemic crippled manufacturing, as 78.3% of these businesses anticipated a major financial impact and more than one-third admitted to facing supply chain issues at the onset of the crisis. Since then, major ports in the U.S. and China have been heavily congested (although recent reports estimate ship backlogs were reduced by almost 90% and aging cargo dropped 46% in Los Angeles).

How bad could the situation have gotten without the help of cloud technologies? It’s unfathomable. Thankfully, manufacturing leaders continue making significant cloud investments to remain ahead of the competition and improve the global supply chain.

Manufacturing in the Cloud

Cloud computing specifically helped manufacturers survive and even grow through the global lockdowns. Supply chains were stretched beyond their limits in what’s now known as the Global Supply Chain Crisis. This includes a global chip shortage that stunted the 2021 holiday season, food security issues, and increased consumer spending (especially in the U.S.).

Research shows manufacturers with the highest levels of cloud adoption are most likely to optimize core workflows and find cost-effective solutions. While they spend more on cloud resources, Wipro FullStride Cloud Services research finds that the ROI of 42% experienced by businesses adopting cloud technology far outpaces competitors not leveraging the technology beyond a beginner’s level (24%).

That’s because the supply-chain issues, while getting better, still haven’t subsided since the start of the pandemic nearly three years ago. And they’re not going away anytime soon, either. There are multiple factors keeping it in play, including a global worker shortage.

There has consistently been more than 800,000 unfilled manufacturing job openings over the past year in the U.S. alone, with 2.1 million vacancies expected by 2030, according to Deloitte. This is caused by two factors: a skills gap and the push for remote work. Less than half (46%) of manufacturers have remote-monitoring processes in place today.

Although manufacturing has razor-thin margins, companies are still managing to raise their cloud spending budgets. Take the results of a recent poll by Wipro FullStride Cloud Services of 130 manufacturers with average revenues of $23 billion and with profit margins near 10% (a hair above the industry average of 9.6%) as a prime example: Those manufacturers implemented an average of 39.5 cloud initiatives, and they are expected to run 79% of their applications in the cloud.

How are they doing it?

A Cloudy Future

Manufacturing leaders need to establish themselves as innovative leaders, and that involves a lot of rebranding. The old idea of manufacturing is a throwback to a century ago; today’s manufacturing jobs are high-tech positions involving more high-level analysis than manual labor. Automation and predictive maintenance allow machines to do the assembly line work while humans spend their time working on more important things like innovation and customer relations.

Running these technologies from the cloud makes factories more responsive to customer needs and market trends in real-time. Consider how Amazon built arguably the most effective global distribution network that provides real-time inventory and supply tracking for both customers and management. Leveraging cloud technology has helped lower costs and bring products to market faster.

Still, it’s not uncommon for manufacturers to hold onto physical infrastructure for an entire human lifetime. Cloud technology makes it possible to integrate old equipment to future-proof the entire operation, and that’s exactly what manufacturing leaders are doing. But with the cloud comes a need for cybersecurity.

Cybersecurity spending is a priority for hybrid-cloud manufacturers, although only 29% of cloud leaders report making significant progress in risk management, according to Wipro FullStride Cloud Services. This is changing, as the pandemic’s rise in cybercrime caused a push from global governments (including CISA in the U.S.) to heighten cybersecurity awareness and implement a zero-trust architecture.

Cloudy With a Chance of Profits

To get the most out of cloud investments, manufacturers need a partner. Cloud is an emerging technology, and manufacturing leaders may not understand how to implement it for the highest possible ROI. But cloud-based businesses with specializations in manufacturing can guide you through how to save money by leveraging the cloud.

Cloud-based digital twins are also useful in reducing the costs associated with equipment repairs. Having a machine break down halts the entire assembly line and costs the company a lot of money — in fact, 91% of businesses lose at least $300,000 per hour in downtime. Predictive maintenance lets you closely monitor equipment and predict failures before they occur, drastically reducing unplanned downtime and optimizing costs.

These cloud-based savings free up liquidity to invest in other emerging technologies, like AI, edge computing, and 5G. The combination of these investments can help scale the business and allow for more agility. As a result, you will be able to create a wider range of SKUs with higher quality and pivot as necessary to meet ever-changing consumer and market demands.

Prepped to Succeed with Cloud Technology

We’re still in the early stages of a revolutionary change in modern industry that’s fueled by innovative new technologies. Cloud, IoT, and AI are among the advanced tech that manufacturing leaders use to gain deeper insights, optimize processes, and become more efficient and cost-effective. These initial investments by technological leaders are providing long-term ROI that’s already paying for itself.

Moving key functions to the cloud enables more powerful capabilities for existing equipment while adapting to the changing workforce. And it’s how the industry is going to finally overcome the detrimental effects of the pandemic and the global lockdowns that followed. We’re not out of the woods yet, but we will be soon enough, thanks to modern technology.

Author’s Bio

As the SVP of Wipro FullStride Cloud ServicesSudhir Kesavan oversees the business transformation of Wipro’s largest clients via the cloud. He is also responsible for the build-out of consulting and advisory services, engineering capabilities, and technology innovation for horizontal and industry-specific accelerators at the heart of enterprise digital transformation.

 

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Archives, Global Logistics, Global Trade Daily, Ocean Ports, Technology

Nuvera Powers Fuel Cell Shipping Container Handler at the Port of Los Angeles

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Nuvera Fuel Cells, LLC, a provider of heavy-duty hydrogen fuel cell engines for on- and off-road mobility and other applications, is powering a Hyster® top-pick container handler with two E-45 fuel cell engines at the Port of Los Angeles (POLA) in Long Beach, California. The zero-emissions container handler is being operated at Fenix Marine Services, a terminal operator owned by the CMA CGM Group.

A grant awarded to the project manager, the Center for Transportation and the Environment, by the California Air Resources Board in 2018, helped support development of the hydrogen fuel cell-powered container handler. Refueling is expected to take approximately 15 minutes, and the vehicle is intended to provide eight to 10 hours of continuous run time. The hydrogen fuel cell engines work in tandem with an onboard lithium-ion battery to either power the equipment directly or charge the onboard battery. To reduce the amount of fuel required, the battery captures regenerated energy from the vehicle.

In addition to the POLA top-pick deployment, Nuvera fuel cell engines will power an electric terminal tractor and an empty container handler to be deployed at Hamburger Hafen und Logistik AG (HHLA) Container Terminal Tollerort in Hamburg, part of Clean Port & Logistics (CPL), an innovation cluster to test hydrogen-powered port logistics equipment. Nuvera will also power a Hyster reach-stacking container handler at the Port of Valencia as part of a H2PORTS pilot project funded by the European Fuel Cell and Hydrogen Joint Undertaking program.

Nuvera can make greener ports a reality by providing zero-emission, high-productivity fuel cell solutions for port, rail, trucking, and marine operations. Nuvera® E-Series Fuel Cell Engines for heavy-duty applications help port authorities and terminal operators comply with tightening emissions regulations and mandates and remain economically competitive by providing high-performance zero-emission power solutions.

The project underway at POLA is part of California Climate Investments, a statewide initiative that puts billions of cap-and-trade dollars to work reducing greenhouse gas emissions, strengthening the economy, improving public health and the environment, and providing meaningful benefits to the most disadvantaged communities, low-income communities, and low-income households.

 ABOUT NUVERA FUEL CELLS, LLC

Nuvera Fuel Cells, LLC is a manufacturer of heavy-duty, zero-emission engines for mobility applications. With teams located in the U.S., Europe, and Asia, Nuvera provides clean, safe, and efficient products designed to meet the rigorous needs of industrial vehicles and other transportation markets. Nuvera is headquartered near Boston, Massachusetts.

Nuvera is a subsidiary of Hyster-Yale Group, Inc., which designs, engineers, manufactures, sells, and services a comprehensive line of lift trucks and aftermarket parts marketed globally primarily under the Hyster® and Yale® brand names. Hyster-Yale Group is a wholly owned subsidiary of Hyster-Yale Materials Handling, Inc. (NYSE:HY). Hyster-Yale Materials Handling, Inc. and its subsidiaries, headquartered in Cleveland, Ohio, employ approximately 8,100 people worldwide.

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Cybersecurity Becomes Job One: Preventing Ransomware Attacks on The Supply Chain

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In 2021, ransomware attacks on supply chains became a front-burner issue for businesses, cybersecurity experts and even international governments. During this year, instances of ransomware attacks more than doubled from the previous year, with some 623 million ransomware attacks being recorded worldwide. 

In addition to an increase in frequency, ransom attacks began to take on a more nefarious flavor, attempting to cripple food networks, water supplies, fuel distribution networks, and even hospitals and city governments. What this indicates is that the focus of ransomware attacks has largely shifted away from large financial firms and toward manufacturers. Evidence supports this sentiment with records showing that 23% of cyberattacks in 2021 targeted manufacturers. 

This significant uptick in supply chain ransomware attacks has made many organizations, including some government agencies, begin to prioritize fighting against this form of cybercrime. Many of these organizations are beginning to collaborate in this fight to make their efforts more effective. 

WHAT IS A SUPPLY CHAIN ATTACK?

A supply chain attack is a form of a cyber attack in which a cybercriminal targets vulnerable aspects of a supply chain’s computer systems. The chief aim of these attacks is to gain access to the networks of the victim’s supply chain suppliers and partners. What makes these attacks particularly dangerous is the fact that cybercriminals gain access to the networks of multiple organizations because of a ransomware attack rather than just the victim’s network. 

Those particularly vulnerable to these types of attacks include smaller organizations without the resources to implement necessary cybersecurity safety measures. In addition, the COVID-19 pandemic exposed many weak points for hackers to exploit because of the shift to remote work. 

TECHNIQUES USED BY CYBERCRIMINALS TO ATTACK THE SUPPLY CHAIN

Some common techniques used by cybercriminals to attack supply chains have become more apparent. Techniques used by cybercriminals to be aware of include:

 Phishing: Also known as social engineering, phishing is when a victim is tricked into downloading and opening an infected file. Cybercriminals typically pose as a boss or coworker to convince their victim into doing this. 

Malvertising: This form of cyberattack finds the attacker crafting fake online advertisements that victims may click on unsuspectingly. This results in malicious software being run on the victim’s device. 

Leveraging vulnerabilities in software code: When there are weak spots in a victim’s software code, cybercriminals can exploit this many ways, such as encrypting information and demanding a ransom to decrypt it. 

SUPPLY CHAIN SECURITY’S WEAK LINK: MANAGED SERVICE PROVIDERS

Managed service providers and managed security service providers have been the sources of many breaches of supply chain security. That’s because many organizations place a large amount of trust in these providers and are less likely to be critical about downloading updates from them. 

The danger of blindly trusting one’s managed service provider was showcased in the SolarWinds ransomware attack. A management system under the umbrella of SolarWinds called Orion, used by many large organizations, was hacked. Many organizations then unknowingly downloaded a malicious update, giving hackers unprecedented access to the private networks of many large organizations. 

WHAT IS BEHIND THE RECENT SURGE IN RANSOMWARE SUPPLY CHAIN ATTACKS?

As a result of the steep rise in ransomware attacks in recent years, many have begun to seek the answer to that question. According to AT&T, these are the five main reasons for the increase in ransomware attacks against supply chains:

  • Victims are more willing to pay ransoms
  • Rising international tensions
  • Expanding networks create more vulnerable points to be exploited
  • Cryptocurrency has made anonymous payment easier for cybercriminals
  • Cybercriminals offer ransomware as a service to other criminals without ransomware experience

SUPPLY CHAIN ATTACK PREVENTION FOR ORGANIZATIONS

Although ransomware attacks on supply chain organizations have become more prevalent in recent years, there are ways organizations can safeguard themselves. One of the most effective ways to do this is by utilizing the five-step approach that revolves around the idea that software developers need to ensure their code has as few vulnerabilities as possible. Here are the five steps: 

  • Keep developers updated on cyberattack risks
  • Make sure open-source development tools are visible and secure
  • Adopt zero trust security that treats all code as unsafe 
  • Build encryption into all apps
  • Work with vendors and partners to plug third-party risks 

To stop supply chain attacks, software needs to be shipped with little to no weaknesses or vulnerabilities for cybercriminals to exploit. Both vendors and customers of supply chain software can benefit from taking advantage of effective safeguarding techniques. Some of the best and most effective techniques for preventing supply chain cyberattacks include:

  • Identify and plug third-party leaks
  • Lock down internal systems and vendor networks by patching all known vulnerabilities
  • Evaluate partners’ security measures and vendors’ security ratings

While one may be aware that these are goals to work toward, it’s not always obvious how to achieve them. Tools and approaches that can be used to achieve these include:

  • “Honeytokens” or fake data resources planted on a company’s network to attract attackers and alert the company about suspicious activity. In addition to providing advanced notice of an attack, honeytokens indicate the methods the attackers will use and can sometimes identify the criminal parties.
  • Privileged access accounts must be managed carefully by implementing a platform that disrupts the path from initial network access to the exfiltration of sensitive data.
  • Cybercrime awareness training instructs staff on how to detect a phishing attempt, how to protect their login credentials, and how to identify and report breach attempts.
  • Third-party data leak detection tools prevent ransomware attacks that originate on vendor and partner networks, even when the third party is unaware of the breach.
  • Encryption of all internal data is one of the simplest ways to discourage cybercriminals, who often prefer to attack systems that are easily breached. Encryption should meet the Advanced Encryption Standard.
  • Zero trust architecture is a security approach that assumes all activity on the company’s network is malicious by default, so access to sensitive information requires that each connection request meet a stringent set of security policies.
  • Multiple layers of defense integrate antivirus, multifactor authentication, and attack surface monitoring, among other data security measures. Multilayer security creates operational layers, each of which has unique capabilities and functions targeted at preventing a specific type of threat.

THE WORLDWIDE BATTLE AGAINST CYBERCRIMINALS

Though ransomware attacks have increased on supply chains, it’s estimated that these crimes will increase even more in the coming years. That’s why private organizations and government agencies are prioritizing the fight against ransomware and are helping mitigate the threat of cyberattacks. 

In addition, cybersecurity professionals familiar with the latest tools and specialized knowledge in the field are helping supply chains become more resilient against cybercriminals with stronger cybersecurity practices. The strengthening of supply chains benefits not only manufacturers but also consumers and the economies of the entire world. 

Author’s Bio

Ryan Ayers has consulted several Fortune 500 companies within multiple industries including information technology, cybersecurity, and big data. After earning his MBA in 2010, Ayers began working with start-up companies and aspiring entrepreneurs, with a keen focus on data collection and analysis.

 

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Hyosung Makes Strategic Investment in Bakken Energy

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South Korean Industrial Leader Supports Bakken Energy’s Hydrogen Initiatives

Bakken Energy, an innovative developer of affordable clean hydrogen at scale, announces Hyosung, a South Korean leader in hydrogen development, has joined Bakken Energy as a strategic investor.

Hyosung has recently become known for advancing technologies related to hydrogen vehicles, such as carbon fiber for fuel tanks and hydrogen charging stations. Hyosung operates in various fields, including the chemical industry, industrial machinery, IT, trade, and construction. Founded in 1966, Hyosung is a large family-owned South Korean industrial conglomerate.

This announcement is the next step towards Bakken Energy advancing its hydrogen mission. Most recently, Bakken Energy announced a partnership with Cummins Inc., and Schneider National Carriers Inc., to work together on the design of the Heartland Hydrogen Hub to serve the needs of long-haul trucking.

About Bakken Energy

Bakken Energy is an innovative clean hydrogen company working to become the largest producer of affordable clean hydrogen in the U.S. Its mission is to decarbonize the hard to decarbonize sectors of the economy with affordable clean hydrogen and to develop the future hydrogen economy that leads toward a low-carbon future.

About Hyosung

Founded in 1966, Hyosung has grown as one of the most prestigious conglomerates in Korea with approximately 20,000 employees and 15 billion dollars in combined group revenues (as of 2021). Hyosung engages in textiles, trading, industrial materials, chemicals, power & industrial systems, construction and information & communication businesses, and operates through more than 100 business sites across 29 countries.