Author name: intellore

Education

Here Is Everything You Need to Know About Cross-Platform Mobile App Development

Platform-agnostic applications are all the rage these days. With the plethora of platform-specific releases and updates and an ever-growing inclination towards multi-platform usage, creating a single app that can work across them is undoubtedly a lucrative and necessary endeavor.  As per Statista’s 2021 developer survey, around 42% of the global developers are working on cross-platform apps, with top frameworks like Ionic, Flutter, Xamarin, and PhoneGap being the choice of almost 73% of developers. But before we get into the nitty-gritty of implementing cross-platform apps, let’s understand the what and why of cross-platform mobile app development. What is Cross-Platform App Development? Cross-platform mobile application development is a software development process where a common code base is used to develop applications that can run on multiple mobile operating systems, such as Android and iOS. The idea is to facilitate wider access to an enterprise’s application’s resources. With a common code base, products developed on the same platform look and feel similar. A user gets a similar experience irrespective of their mobile device, which is precisely what enterprises aim for in the UX-centric economy.  No wonder much of the credit for this approach and philosophy of mobile development goes to the proliferation of progressive web applications (PWAs), rapid mobile app development (RMAD), and SaaS solutions. What are the Benefits of Cross-Platform Mobile App Development? With a cross-platform all, regardless of the platform, mobile users experience a consistent interface with standard navigation, style sheets, visual appeal, and control.  For Businesses, the benefits are many, such as Single Team, Multiple Fronts: A cross-platform app development team usually works with a common codebase, making them highly efficient and economical. Plus, the entire team is always on the same page, unlike working in a fragmented setup. Access and Reach: As mentioned earlier, access and reach are the two core goals of cross-platform mobile development. In the highly fragmented digital industry, enterprises can avail themselves of a larger and more lucrative user base by simply developing a single app that would work on multiple platforms. Faster Development: Cross-platform frameworks help developers create apps for multiple platforms without having to use platform-specific APIs in the code. Furthermore, cross-platform applications are developed using modern and matured frameworks, which means they’re up to date with the latest design trends. Both these facets expedite the development processes and make them less time-consuming. Code Reusability and Maintainability: All the source code, libraries, and APIs developed for one platform can be reused for other platforms. This practice reduces the amount of time and money spent on developing an app from scratch. Cross-Platform vs. Native Mobile App Development As opposed to platform-agnosticism exhibited by cross-platform apps, native mobile app development implies that each platform is coded individually for specific features and a user experience that is crafted specifically for each. Naturally, this approach offers the best user experience and tends to be more resourceful — precisely why 58% of the developers worldwide work on this model. However, this approach also carries with it several drawbacks. Every change made to the native code must be separately released across all platforms, adding to the development time and cost. Also, this approach is not ideal for small or new businesses, as they would have difficulty taking on the additional cost, upfront investment, and risk involved in managing separate codebases and associated teams. When Should You Consider Developing a Cross-Platform Strategy? Cross-platform development is a cost-effective and necessary practice. It clearly exhibits itself as the future of mobile app development, and businesses are already upping the ante. That said, here are some scenarios where you must create a cross-platform mobile app. You Know You Would Scale A cross-platform mobile app will be the right choice if you have a fair idea of how much traffic you can expect the app to generate in the forthcoming period. This is because it will help you: Avoid re-engineering a new codebase for each platform Ensure a single-to-multiple solution that would deliver a unified, consistent experience for the user You Know Your Customer Base is Scattered Your cross-platform mobile app will be the optimal choice if you have a pretty well-defined customer base that is scattered across multiple platforms. For example, as an eCommerce brand, you wouldn’t want to miss out on a relatively small iOS user base when their average eCommerce transaction amounts to $32.94 — 3X the amount of those shopping on Android. You Have a Good Development Partner Cross-development can be extremely challenging considering that a number of issues such as performance inhibition, sub-optimal UX, challenging API integration, and debugging intricacies are bound to crop up at one point or another. Therefore, you should only embark on this development journey if you have a trusted and reliable development partner with ample experience in creating cross-platform mobile apps.  Leverage Intellore’s Expertise to Ensure High-Grade Cross-Platform Mobile Apps As a leader in enterprise mobile app development, Intellore’s cross-platform mobile app development strategies are built on the principle of simple design and easy implementation. This entails using leading industry frameworks (such as Flutter, ReactNative, Xamarin and Ionic) and technologies (such as PHP, NodeJS, ASP .Net Core, HTML5, CSS, jQuery Mobile, JAX, and Angular) that developers can leverage to seamlessly replicate the same app functionality on multiple platforms. To know more about cross-platform mobile app development or to discuss your next project with our experts, drop us a line here. . Recent Blogs:

State of Industry

The Role of AI And Analytics in Connected Cars

Imagine a car in a remote area. Due to poor lighting, the car collides and meets with an accident. Earlier, it took time for the police to identify the accident and send the rescue team to save the driver. However, things have changed now. In 2018, the EU legislation made it mandatory that all cars must have an in-built technology to alert the police officials in case of an accident. The GPS data helps the police to detect the car’s location and reach there quickly. Imagine a car in a remote area. Due to poor lighting, the car collides and meets with an accident. Earlier, it took time for the police to identify the accident and send the rescue team to save the driver. However, things have changed now. In 2018, the EU legislation made it mandatory that all cars must have an in-built technology to alert the police officials in case of an accident. The GPS data helps the police to detect the car’s location and reach there quickly. Similarly, the driver can use a smartphone app to start the engine and make the windows frost-free before getting into the car. From entertainment to driver’s safety and comfort, connected cars have re-imagined transportation. These cars are connected to the internet through wireless LAN. It allows the car to share data with devices inside and outside the car. This helps in vehicle management and ensures driver safety. Technologies such as data analytics and artificial intelligence (AI) make these cars smart. Let’s look at the role these technologies play. Role of AI And Analytics in Connected Cars Preventive Maintenance Like other cars, connected cars are also susceptible to wear and tear. However, the difference here is that it’s easy to detect the issues in advance and take preventive measures to fix them. Companies can leverage AI to monitor the vehicle’s lifecycle in real-time and alert the driver to fix it. Analytics can be used to accurately predict when the vehicle requires maintenance to avoid unexpected breakdowns. AI and analytics are also useful in car manufacturing. Companies can detect the defects in car parts at an early stage before they are even installed and ensure vehicle and driver’s safety. Accident Prevention A driver has to witness multiple hindrances on the road – from pedestrians, objects, bicycles, etc. while driving. There are other potential dangers too, such as foggy weather, snow, potholes, etc. Navigating such an unpredictable external environment can be cumbersome for drivers. Analytics collects data from a car’s sensors. It uses it to train AI to predict human behavior and other road challenges to ensure that it alerts the drivers on time to avoid object collisions and accidents. Nissan, for instance, uses sensors to alert the drivers and automatically lock the seat belts to prevent collisions. As the sensors collect more data, AI will be more effective in preventing accidents and ensuring driver safety. Improving driver’s experience Today’s customers want personalized and safe experiences. From offering infotainment services to informing about safety parameters and sharing the maintenance schedule in advance, car manufacturers like Mercedes, Toyota, and BMW have already started personalizing the driver’s experience. AI and analytics help in personalizing these experiences. It provides insights on different factors such as fuel efficiency, battery life, etc. that could help in improving the driver’s experience. Being data-driven helps car manufacturers to meet customers’ expectations and stay ahead in the competitive curve. Connected cars have in-built sensors, GPS, and cameras that help gather data and improve experiences. Transparency in supply-chain AI and analytics have been particularly useful in improving transparency in supply-chain management. Connected cars use well-integrated software and hardware. Hence, car manufacturers must have full visibility on the supply-chain operations. They need to deal with diverse data sets and also compare different price ranges and the quality of different components involved in building the car. Given the complexity, analytics can be useful to manufacturers. With the help of analytics, manufacturers can identify potential risks in the delivery and fix them to ensure seamless operations. Analytics also helps car manufacturers to understand the customer and market demands, how they interact with the company, and use those insights to predict customer needs better. Leverage OTA updates to improve the experience The ultimate goal of a connected car manufacturer is to identify defects on time and produce good-quality cars that meet the customer’s expectations. Considering that connected cars use embedded systems, the software requires continuous updates to deliver a good experience to customers. Whenever an over-the-air software or firmware upgrade happens, analytics can track its performance in real-time and improve it based on the data collected. Eventually, all this helps to improve the overall experience of the driver. Conclusion Connected cars have become a game-changer in the automotive industry. By 2025, over 14 million semi-autonomous vehicles will be seen on US roads. However, to build such cars, automotive companies must invest in embedded product design and development. This will ensure that the hardware and software used in the vehicles work cohesively to provide a seamless experience to drivers. To build such intelligent and complex systems, companies need resources with specialized skillsets. At Intellore, we have a team of engineers, designers, and developers who possess the skills to build connected systems for connected cars. We understand the complexities involved in the connected vehicle space and thus, combine our software and hardware expertise to build connected cars for tomorrow.

State of Industry

How OEMs Can Better Prepare for Tomorrow’s World of Connected Vehicles

More than 95% of the vehicles would feature connectivity (ethernet, cybersecurity, real-time updates) by the end of 2030. More than 50% of such vehicles would be entirely electric, and more than 60% of the customers would prefer switching OEMs based on the feature-laden autonomy being facilitated.  The likelihood of such a tremendous shift reminds us of the time when wireless consumer electronics became the norm and gave wired devices a run for their money or the time when eCommerce snatched away the liberty of brick-and-mortar stores. But even these cannot come close to the influence that connected vehicle Industry 4.0 will have on the way we go about manufacturing, distribution, and maintenance of automobiles.  In fact, the shift is already happening with the human-machine interface (HMI) becoming the new front end and vehicle control moving to the cloud-based solutions. Considering the relatively acute market differentiation possibilities but equally vaster opportunities to thrive, how can Original Equipment Manufacturers (OEM) prepare for a data-driven era of connected vehicles? Let’s find out.  Software-first Ideology Software, as opposed to the standard design-first philosophy, will embark on its journey as the pivotal market differentiator, and rightly so. The intricate connectivity powered by IoT devices and facilitated by high-grade ethernet will make it essential for the OEMs to manufacture enhanced powertrains capable of striking a balance between the go-to driving philosophy and the changing market.  On the microscopic scale, the OEMs will have to adhere to the following: Burkacky et al., from McKinsey Center for Future Mobility, state that a vertical technology stack could very well be the answer to “customer-facing functions” and will present opportunities for “developers to focus on differentiation” and OEMs to “rely on best-in-class hardware implementations, such as chips for AD.” Integration-first Approach In 2018, Eric Taub, while writing for New York Times, expressed his concerns over the non-integration of carmakers and software giants. He argued that the in-dash navigation systems are not as adept as those on one’s smartphone. Although Taub’s views didn’t necessarily pertain to the case for connected vehicles, they certainly reflected the conundrum that (is and) could trouble the OEMs soon.  In the past, too, OEMs have had to move from their in-built applications to those from service providers. The integration of Apple CarPlay is one such example that demonstrates the vitality of moving forward with an all-inclusive approach.  Actually, there’s no reason why an OEM wouldn’t. Software product manufacturers and cloud giants like Google, Amazon, Microsoft, and Apple have already made their name for user-centric applications. Why not leverage them for good? In fact, their omnipresence is an opportunity to attract and sustain consumers by facilitating an exceptionally improved user experience. To that end, integration-first is a preparation for the OEMs to establish absolute control over the connected vehicles market.  Future-proofing Philosophy Although the OEMs are aware of the market disruption headed their way, they must remain loyal to their own strategy by being future-proof. In other words, OEMs must focus on incorporating better connectivity standards to be able to secure the cloud tokenization of vehicle control logic. Specifically, the OEMs will have to focus on: From the management perspective, OEMs must: Accelerate the design phase in order to make the product suitable for both legacy and new cars/vehicles similarly.  Enterprise-Consumer Balancing Approach OEMs would be wise to consider their readiness in the face of an enterprise-first approach. It would be easier for the OEMs to take the leap if they are already on the right path.  The enterprises’ concerns are different from those of consumers. For example, while consumers would like more power, businesses would want greater flexibility. While consumers would like predictive maintenance of their vehicles, companies would want to get more done with fewer resources.  Likewise, customers and businesses differ a bit in other aspects such as security, reliability, and governance. The data-driven era of connected vehicles will introduce points of convergence between the consumer and enterprise applications, and OEMs will have to be ready to expedite the same. For example:  The Road Ahead In a future-proof strategy for the connected vehicles market, OEMs will have to be cognizant of digital disruption on a global scale and move away from traditional business models. In their efforts towards that end, the car-makers must look at both the automotive industry and adjacent verticals as opportunities to breed stakeholder solutions and create long-lasting customer relationships. 

Business Models
Education

Intelligent Business Models for Intelligent Buildings

Intelligent Buildings are quickly becoming the norm. By combining the latest advances in cloud, connectivity, analytics, and physical design, they enable better visibility, greater energy efficiency, as well as improved safety for owners, operators, and occupants. Quick and easy access to real-time actionable insights delivers additional control over day-to-day operations while enhancing long-term outcomes. But, establishing Intelligent Buildings is not just about integrating cloud and IoT; organizations need to be able to devise intelligent business models, to be able to drive maximum value and returns from their investments. The Rise of Intelligent Buildings The growing focus on sustainable architecture and green design is the main driver that is driving the rapid growth of Intelligent Buildings. As concerns around global warming and climate change escalate, Intelligent Buildings pave the way for reduced energy consumption while allowing organizations to seamlessly integrate various building subsystems, which typically operate in silos, as they are supplied and installed by different vendors. Through sustainable design approaches, these buildings help preserve energy while offering new levels of insight and control. In addition, they also offer much-needed space flexibility along with high levels of safety and cost-effectiveness. In the long run, these features translate into highly efficient operations, optimized resource management, better space utilization, and greater occupant productivity. The Need for Intelligent Business Models Transforming urban buildings into Intelligent Buildings that pave the way for a sustainable and productive future is no longer just about fancy real estate. Today, the focus has shifted from cutting-edge smart building products towards offering unmatched intelligent experiences. In a green era, Intelligent Buildings need to enable companies to launch innovative business models where, instead of just the real estate, companies can charge for experience and lifestyles as well. Let’s look at some of the different business models building owners and operators can adopt to set Intelligent Buildings in motion: The shift towards intelligent models is quickly picking steam, as building owners and operators attempt to introduce an array of intelligent capabilities to keep up green energy requirements while also ensuring future revenue growth. This is increasingly imminent in the post-pandemic era, where most businesses are re-evaluating their strategies and seeking ways to enable on-demand, customized, and scalable access to space, amenities, and services. Instead of having “location” at the focus of every business strategy, operators now need to connect users with services, so location becomes deprioritized, and service becomes prioritized.

DevOps
Education

Applying DevOps in Product Development – Benefits and Best Practices

Rapidly changing market conditions often force businesses to think out of the box and come up with innovative solutions. Today, this innovation is mostly centered around digital transformation initiatives wherein businesses leverage technology to stay competitive in the market. Irrespective of the domain, every business now needs to think and act like a tech company to fulfill the desires of customers in a thriving digital economy. Businesses are not new to software. But the reality today is that enterprises need to ideate, build, and deploy digital applications faster into the market and with zero scopes for quality compromise. Every enterprise software today needs to be treated as a product that is continuously upgraded or evolved to suit the dynamic needs of the business. While moving into continuous product development or engineering paradigm of technology use, enterprises primarily must synchronize activities between development teams and the operations team who manage the technology ecosystem including infrastructure. The best methodology that promotes a seamless blend of product development and IT operations is DevOps. In fact, DevOps may be perceived less as a methodology and more as a cultural change that empowers collaboration and unification of objectives between different teams engaged in building software and taking it to the market. It is predicted that the global DevOps market size will witness a growth of over What are the benefits of DevOps in Product Development? DevOps is a game-changing factor in modern-day product development initiatives for enterprise software. In addition to being the core unification strategy that encourages cross-functional collaboration between IT operations and the application development teams, here are a few key benefits that businesses leveraging DevOps in their software product development journey can realize: What are the best practices for DevOps implementation in a product development scenario? DevOps, as we know, is a philosophy that promotes faster software development without compromise in quality. To ensure success it is important for enterprises to take the right roadmap to bring DevOps into their technology landscape. Here are some best practices: DevOps is at the heart of modern product innovations and software-defined business operations. Enterprises that thrive to leverage the several benefits that DevOps offers can stay ahead of the competition. These new business models can help building owners and operators enhance bottom line benefits, shifting the focus from offering just physical space to offering unmatched smart digital services. Irrespective of what model you choose, integrating and leveraging emerging technology to create unmatched Intelligent Building experiences is the way forward.

State of Industry

Beyond COVID – Workplaces Must Be Transformed into Intelligent Spaces

If you thought that COVID-19 signaled the end of workplaces, then it was a misconception. Though the number of people opting for remote work would be very high post the pandemic, it isn’t going to be an all-out 100% work-from-home model of business that will return post recovery from the pandemic. A McKinsey survey pointed out that only around 20 to 25% of the total workforce in some of the most advanced countries will be able to work from home between 3 and 5 days a week. Several organizations may opt for a hybrid workplace model where they would let employees work fewer days from the office, as long as their work is not disrupted. However, the real question isn’t about employees returning completely or partially to their workplaces. It is – How should the workplace be transitioned to accommodate newer models of work in the new normal beyond COVID? Utilization patterns of the workplace will certainly be transformed as employees return and organizations need to uncover ways to make productive use of their office infrastructure to ensure sustainable operations at lowered costs. The safety of employees is a top priority that cannot be compromised since agents that caused the pandemic will still lurk in the dark waiting for a chance to attack vulnerable populations who may not have been vaccinated for various reasons. That apart, worldwide, there is a growing concern about climate and environmental disasters that may cause even more widespread damage than pandemics. Hence businesses need to pay attention to the call for sustainable practices while setting up their offices. The global market for green construction materials is expected to hit a record size of around USD 377 billion by 2022. This is a testament to the rising demand for sustainable workplace operational models worldwide. So how can your workplace address the need to prioritize the safety of employees, empower productivity, enable flexible utilization of the workplace, and ensure sustainable operations for a better future? The solution lies in the extent to which you can transform your workplace into Intelligent Spaces. What are Intelligent Spaces? Intelligent Spaces or buildings are facilities that leverage modern technology innovations to deliver beneficial experiences to all stakeholders i.e., employees, the business organization, partners, and the environment as well. By combining the power of sustainable workplace design, with innovations in analytics, cloud, and smart connectivity, Intelligent Spaces re-defines the traditional workplace experience for every occupant. Let us examine how Intelligent Workplaces allow businesses to uncover hidden value and better ROI on their infrastructure investments: The workplace in the new normal has to accommodate a diverse set of requirements that relate to occupancy as well as energy consumption and optimized infrastructure usage. Switching over to Intelligent Spaces is the best way to ensure a sustainable working model for your workplace beyond the COVID era. Get in touch with us to know more.

Evaluating a company
Education

How To Evaluate an Embedded Product Design and Development Company?

Today, a lot of research and development happens in the field of embedded products and their design. It is no wonder that the global embedded systems market is expected to be worth over USD 116.2 billion by 2025. The rising demand for new digital experiences that blur the line between software and hardware is the key factor behind the growth of embedded systems. As more businesses explore the possibilities of leveraging embedded product capabilities, the number of organizations offering embedded product design and development services has also increased exponentially. But then comes the challenge – how to evaluate an embedded product design and development company? From the vast number of providers available, it is important to partner and invest in the right candidate. But most businesses face difficulties in qualifying an option for their product development. Here are 5 criteria that businesses can use to pick the right embedded product design and development company for building their ambitious offering: Knowledgeable Domain Expertise Embedded systems find use cases in most domains. Your business needs to first finalize on the area or target customer domain where your embedded offering will be put to use. Then the next step is to evaluate the expertise level of service providers in that particular niche or domain. For example, if you are on the journey to build an embedded healthcare product, it is highly advisable to pick a partner that has built similar products for companies in the healthcare space or has expertise in building embedded solutions for a different niche in healthcare. This will ensure that the final product being built is compliant with unique demands from regulators and empowers successful customer experience metrics in your domain. Integrated Hardware and Software Experience Embedded product design and development is successful when there is the right balance of software and hardware intelligence that collaborates well within the operational ecosystem to deliver amazing customer experiences. When evaluating a partner company for building your ambitious embedded offering, there should be a clear understanding of how equipped they are from a hardware and software perspective. The partnering company needs to have specialized software tools for designing functionality, reliable and quality certified hardware components with handling and management expertise, trained or certified professionals to build the collaborative experience, follow recognized protocols and policies in embedded architecture, and so on. Proven Track Record One of the best and most important facets of evaluating a partner for embedded product design and development is to verify their credentials through proven past engagements. Request for references and portfolio of their work, research and seek recommendations from their past customers especially those operating in similar or related domains, and verify their work schedules, processes, and policies through comparing with internationally recognized standards. Innovative Outreach Not all businesses may have an end-to-end vision about their embedded offering. This results in gaps in product journeys wherein competitors with more forward-thinking approaches can win customers. To counter this, businesses can turn to partners who have established credentials for innovation. An example could be a dedicated R&D practice or COE from the partner that helps identify more use cases, recommends new features, and leverages more innovative hardware or software tools and architecture, etc., to build more appealing end-user experiences. A partner that can bring innovation to the heart of your embedded product design and development initiative is always a higher priority than those that lag in innovation capabilities. Sustainable Development Approach The key to the longevity of your embedded offering in the market doesn’t always lie in the celebrated feature list, but in how well it is able to sustain in dynamic market conditions. There is a need to constantly adapt to changing consumer demands, integrate newer technology in both hardware and software as they evolve, and accommodate newer use cases for as long as possible with minimal investment. This requires designing and building a product that has a sustainable architecture that can be flexibly extended or enhanced to meet new demands in the future. To achieve this, the partner you choose needs to have experience in architecting embedded products from scratch, envision their progression journey, and build a roadmap that can easily accommodate changes over time. Designing and developing an embedded product for today’s digital economy requires talent, technology, and the right vision. Bringing together these facets on their own will be a daunting task for businesses but they can always partner with vendors who excel in these areas. By evaluating their credibility using the five criteria we have outlined, businesses can kickstart their ambitious move into the embedded product development space, and can guarantee results in the fastest time frame possible.

State of Industry

How 5G IoT is Defining the Future of Connected Vehicles

With rapid advances in technology, greater access to data, and an ever-increasing number of connected devices, it’s no wonder connected vehicles are becoming the new norm. What may not be as obvious is how 5G IoT will drive this evolution for consumers.  As per Qualcomm’s , 5G IoT would be sufficing a value of USD 13.2 trillion by the end of 2035 – allowing for a shift from cloud-centric intelligence (Latency – 100 ms) to distributed intelligence (Latency 1 ms).   At the heart of such a shift would be the future of connected vehicles – precisely what this article will expand on.    Why Does 5G Matter for IoT – A Primer Connected vehicles are not a passing fad; they’re here to stay. Their  market is set to grow  at a CAGR of 17.1% to as much as USD 225.16 billion by 2027.  With the rapid proliferation of connected vehicles and connected devices, manufacturers are now facing new challenges in safely detecting and connecting to the ever-advancing IoT devices.  As a result, legacy technologies (e.g., Bluetooth, Wi-Fi, GPS) are no longer able to meet the current needs of automakers. To keep up with the growing number of connected devices and ever-increasing demands for speed, the industry must migrate to connect more securely, faster, and more efficiently.  5G technology will be able to concurrently support such large volumes of connected devices and the high-frequency data bandwidth required for these devices. It will also support the quick transmission and response times necessary for allowing vehicles to drive autonomously or remotely control the devices (e.g., doors).  5G IoT-Powered Connective Vehicles and the Advancements in the Automotive Industry New Mobility Apps for Connected Vehicles Consumers are more aware than ever about how their connected cars are gathering and transferring data. As a result, they’re demanding that automakers provide them with more features that allow them to utilize this data for their own personal gain.  Connected vehicles, while leveraging 5G, will be able to share data (i.e., location/direction) with other users (e.g., friends, family, or the general public), paving the way for a whole new series of advanced  transportation -focused apps and services – all without the driver ever needing to input a thing.  Voice Commands – The New Normal With the help of 5G, automakers will be able to monitor, track and record voice commands for every passenger in the vehicle.  All of this information will be collected, sent, and received seamlessly in real-time. Although it is still too early to say what approach the automotive industry will take with connected vehicles, it’s safe to say that having more data will only mean more driver convenience and utmost facilitation of features.  Vehicle-to-Infrastructure (V2I) Connectivity V2I connectivity will be all about making the roads safer and more efficient. For instance, it would be possible for 5G IoT-powered vehicles to know that the road ahead is a construction zone and to alert other vehicles to avoid the area – thus, helping minimize potential accidents and traffic congestion.  Vehicle-to-Vehicle (V2V) Connectivity Through V2V communication, vehicles will constantly monitor one another and share this information with the authorities (e.g., via roadside stops or traffic lights). When used in tandem with V2I technology, connected vehicles will be able to make decisions about safe routes and avoid any potential hazards like road accidents that could otherwise cause traffic congestion.  In-car Speech Recognition Speech recognition and natural-language-processing technology will allow cars to understand human speech in real-time. By utilizing this technology, cars will be able to communicate with pedestrians and other drivers at higher speeds, making the roads safer for all.  The 5G IoT system will work in conjunction with connected devices, providing automakers with an unprecedented level of awareness of what is actually happening around the car while driving. Isn’t this what most consumers would expect out of connected vehicles in the forthcoming days?  Advanced Predictive Maintenance Features As a result of the connected vehicle ecosystem, automakers will be able to monitor and control the health and performance of their vehicles. Different levels of maintenance can be assigned to each individual vehicle, and data will be exchanged between vehicles over V2X and/or V2I communication.  This will allow the automakers to fully “know” their cars and their customers, as this information can then be used to support proactive maintenance based on the consumers’ driving habits. As a result, we’ll witness safer drivers, reduced fuel consumption, and more consistent vehicle performance, ultimately leading to fewer out-of-pocket mechanical costs for consumers.  Enhanced Security Features 5G technology will facilitate automakers to monitor, track and record location data at faster speeds than ever before, ensuring that drivers remain in control of their vehicles. With real-time updates, connected vehicles will be able to share this information with other nearby vehicles (to increase safety), infrastructure, or users on the road (to warn them about potential hazards ahead).  Reduced Traffic Congestion This is perhaps one of the most important aspects of 5G technology and the connected vehicle ecosystem. For instance, when connected vehicles are able to self-run and communicate with one another, they will have the means to coordinate their movements in real-time (as well as those of pedestrians), ultimately reducing traffic jams and unnecessary congestion.  Real-time Computation of Vehicle Information It’s not just about the connected car; it’s about what the connected car is doing at all times and how it is performing. With real-time monitoring and protection of car information, drivers will have all the data necessary to make informed decisions (e.g., fuel efficiency, road quality, weather conditions). This will allow them to better plan their trips and avoid potentially dangerous situations.  Use-Cases – An Insight into The Future of Connected Vehicles The connected vehicle ecosystem will provide us with a myriad of innovative use cases that will improve the lives of our future generation.  “While manufacturers, software companies, and robotics labs have been partnering and competing to put commercially viable self-driving vehicles on public roads for years, 5G provides new opportunities to deploy autonomous driving applications that achieve the Society of Automotive Engineers (SAE)’s  1. IoT-Powered Fleet Management System Fleet management is a vital business and is used for things like security, monitoring, scheduling, and efficiency. With this new system, fleet owners will be able to better

State of Industry

The Biggest Reason Why Embedded/Hardware Product OEMs Fail to Generate Attractive Valuations

Gone are those days when products worked in silos. We are in the middle of Industry 4.0, which is all about connected devices that communicate with each other and allow seamless data exchange between them.  This digital transformation is also bringing a change in the embedded OEM market. Companies are now building smart, data-driven products that focus more on experiences and outcomes than functionality.  According to research, the embedded system market is expected to reach $116.2 billion by 2025. There has been a steady rise in demand due to various factors such as demand for advanced driver-assistance systems (ADAS) in hybrid vehicles, wearable devices, and the need for new components such as advanced medical equipment. In fact, digital transformation could become the key differentiator and generate alternate revenue for enterprises.  However, all of this will not generate an attractive valuation if Product OEMs fail to do the one critical thing – product documentation.  Why is Product Documentation Critical?   Traditionally, product documentation was always given the least priority in enterprises. They always depended on the experienced employees to pass on the knowledge verbally to the new ones. However, the gap between the baby boomers and millennials is increasing. It’s hard for enterprises to find the right replacement for the employees who are on the verge of retirement. By the time the role is filled, the older employee would have retired. So, there’s no documented process that could guide the new employees. There’s a disconnect between what the new employee learns and implements.   This disconnect could lead to various challenges:  All these issues also make it challenging for the enterprise to implement product updates and adapt to the dynamic changes in the market.  What Should Enterprises Do?  Given the importance of documentation, enterprises need to prioritize it and make it a part of their development process. It will help the existing and new teams to avoid any hiccups during digital transformation or future updates.  Typically, the product documentation goes through a set workflow of requirement analysis, planning, designing, and maintenance.  How Intellore Can Help with Product Documentation?  Intellore has a team of embedded product experts with rich domain expertise across various industries such as automation, transportation, etc. We have end-to-end experience in embedded product development, which includes concept development, requirements, design, development, verification, etc. Hence, we understand the significance of product documentation really well.   We follow a three-step approach to product documentation:  Does this sound interesting? For more information, contact us.  

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Depleting water supplies driving smart meter adoption

Intellore licenses ‘LoRa enabled Ultrasonic Water Meter’ design to organizations supporting global initiatives for Sustainable Development Goals (SDGs) Dec 2019 – Intellore, a leading digital transformation services company, based out of India, announced availability of “LoRa enabled Battery Operated Ultrasonic Water Meter” design platform for residential applications.  Depleting water supplies is already a major concern globally and organizations worldwide are deploying technology to address this issue as part of Sustainable Development Goals (SDGs). Intellore’s Water Meter, available under technology licensing, will provide OEM, Solution Providers a quick time to market solution. Growth in the world’s population, cities, and growing economies is placing bigger demands on already-depleted water supplies. Unchecked usage and leakage are exacerbating the scarcity of water. By 2030 the global gap between supply and demand of water is expected to reach 40 percent. The water industry is moving towards a smart and resource-efficient future. Sustainable Development Goals (SDGs) are encouraging adoption of smart water meters, to help make better use of energy, avoid unnecessary water losses and minimize the consumption of resources. Sustainable Development Goals (SDGs) are influencing government policies and mandates, requiring deployment of Smart Water Meters with a sense of urgency. For example, the European Union 20-20-20 policy aims to convert 80% of the installed meter base to smart meters by 2020. In India, adoption of Smart Water Meter is growing rapidly owing to Government tenders at Central, State & Municipal level as well as Private Sector (like Gated Communities). Smart Water Meter market is projected to grow at 13.4% CAGR between 2019 to 2024, with the residential segment (application) and Asia-Pacific (geography) is expected to be the fastest growing market. “Effective implementation of SDGs, specifically in case of water, needs putting in place an entire ecosystem to Meter, Measure and Manage Water. The crucial part of the implementation is enabling recording water usage at consumption points, making data available centrally and monitoring consumption trends, so that effective water resource management and planning activities can be undertaken. We are very happy to introduce a ready platform that supports 15 to 40mm OD pipe sizes, 7-12 years of battery life*, LoRa connectivity with Public/Private networks and can be quickly customized to individual needs” said Chetan Khare, Co-founder and Director at Intellore “As a matter of fact, several of our customers found through demos that the platform currently meets nearly 90% of the requirements. The only changes our customers have so far asked for are enclosure changes, a different LCD or sensor assemblies, which are normal customization requirements. Moreover, the platform meets the metrological and technological requirements of ISO 4064” adds Prasanna Rege, Co-Founder and Director at Intellore. For additional details reach out at  globalsales@intellore.com  ,Website:  www.intellore.com   LinkedIn : Intellore Systems

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