Smart technology is changing how dental care is delivered. It helps make appointments more accurate, more comfortable, and easier to understand. These tools support a smoother experience for patients who want clear explanations and reliable treatment.
Digital Diagnostics: Faster, Clearer, and More Comfortable
Digital X-rays give detailed images with less radiation than old film X-rays. The sensors are small and comfortable, and the images appear right away. This makes it easier to explain what is happening inside your mouth. Three-dimensional imaging adds even more detail by showing your teeth, roots, and jaw from different angles. With clearer information, problems can be found earlier and treatment plans become more accurate.
Benefits of digital diagnostics include: • Less radiation exposure • Quick and comfortable imaging • Better visibility for early detection • More accurate treatment planning
Intraoral Cameras: Helping You Understand Your Oral Health
Intraoral cameras show real-time pictures inside your mouth. You can see the same images your clinician sees. This makes dental conversations easier to follow and helps you understand why certain treatments are recommended.
Laser Dentistry: Comfortable Treatment with Less Healing Time
Laser tools allow for gentle gum treatment, decay removal, and whitening. They help reduce discomfort, bleeding, and recovery time. Many patients feel less nervous knowing that lasers often require:
Less anesthesia • Shorter healing periods • More precise targeting during treatment
Sedation Options: Keeping You Calm During Visits
Sedation helps patients who feel anxious or nervous. Options like nitrous oxide, oral sedation, and IV sedation provide a calm experience so you can complete treatment without added stress.
Sedation is helpful for patients who: • Have dental anxiety • Need longer or more complex procedures • Feel uneasy with drills or bright lights • Have had difficult dental experiences in the past
Teledentistry: Simple Support from Home
Virtual visits make it easy to ask questions or get follow-up advice when a full in-office appointment is not needed. This is helpful for busy patients or those who prefer to speak with a professional before coming in. Teledentistry offers guidance but does not replace hands-on care.
AI-Assisted Tools: Better Detection with Clearer Insight
AI programs review dental images and point out early signs of decay or bone changes. This helps clinicians make accurate decisions and catch problems sooner. Early detection also leads to simpler and more effective treatments.
AI assistance helps with: • Early spotting of potential problems • More accurate diagnoses • Reduced risk of missed findings
Smart At-Home Tools: Helping You Build Better Habits
Smart toothbrushes and oral health apps track brushing habits and offer reminders. They help patients maintain good routines between visits. While these tools are helpful, professional dental checkups remain important for spotting issues that daily brushing cannot detect.
Digital Workflow: Faster and More Efficient Appointments
Digital workflows streamline many steps of dental care. Tools like digital scanners, electronic records, and online forms help reduce waiting time and make visits more organized. These systems also support clearer communication between the dental team and dental labs, which can improve accuracy during procedures. Visiting a dental clinic remains essential because these digital tools work best when paired with in-person evaluation and professional guidance. Clinics that focus on advanced cosmetic and restorative work, such as those seen at Lowenberg, Lituchy & Kantor, highlight how in-clinic expertise and modern technology work together to create dependable treatment outcomes.
Digital workflows support: • Better fitting restorations through detailed scans • Faster communication with dental labs • Reduced risk of errors or lost information • More reliable treatment outcomes
Enhanced Sterilisation Technology: Supporting a Safe Visit
Modern sterilisation systems clean and prepare instruments quickly and consistently. Digital tracking confirms that each tool has been processed correctly. This maintains a safe environment for all patients.
Smart Scheduling Systems: Shorter Waits and Better Timing
Automated scheduling helps clinics plan appointments more accurately. Reminders keep patients informed, and real-time updates reduce delays. This creates a smoother visit from start to finish.
Scheduling tech improves: • On-time appointments • Reduced waiting room congestion • Better planning for both patients and staff
Conclusion
Smart technology makes dental visits easier, clearer, and more comfortable. While at-home tools and virtual support are helpful, visiting a dental clinic is essential for early detection, accurate diagnosis, and effective treatment. Clinics that use modern technology along with professional experience provide a level of safety, precision, and care that cannot be achieved at home.
Smart battery technology is transforming how we maintain our cars. These systems prevent breakdowns, cut repair costs, and make vehicle ownership more reliable by monitoring battery health in real-time.
Car batteries have come a long way from the simple lead-acid boxes under the bonnet. Today’s smart batteries use advanced sensors and connected systems to constantly monitor their own health, preventing those dreaded roadside breakdowns that leave you stranded.
The numbers tell a compelling story. The global vehicles intelligence battery sensor market size was estimated at USD 2.96 billion in 2023 and is expected to grow at a CAGR of 12.8% from 2024 to 2030, reflecting the rapid adoption of this technology across the automotive industry.
Understanding smart battery technology
Smart car batteries feature built-in sensors that track vital information around the clock. These sensors measure the current to and from the battery, monitor voltage, state of charge and state of health of the battery, and in some cars, even measure the temperature of the battery.
Modern car batteries now feature intelligent monitoring systems that track performance in real-time
The technology works by placing intelligent sensors directly on the battery terminals or cables. The sensor enhances the automobile’s diagnostic ability and can thus warn of possible breakdowns that may not even be caused by the battery. Moreover, the sensors help to extend battery life by 10 to 20 percent via an improved charging strategy.
The Smart Battery Market is expected to grow from 16.97 billion USD in 2024 to 46.22 billion USD by 2034, with a CAGR growth rate of around 10.54% during the forecast period. This explosive growth demonstrates the automotive industry’s commitment to smarter, more reliable vehicle systems.
Advanced monitoring that never sleeps
Unlike traditional batteries that only show problems after they’ve failed, smart batteries provide continuous health updates. Research from BYD Automotive Engineering Research Institute shows that well-integrated machine learning models can achieve a verified classification accuracy of 96.3% in predicting battery failure, representing a 20.4% increase from initial models.
The system tracks several key measurements:
Voltage monitoring: Smart sensors detect unusual voltage patterns that signal potential problems before they become serious failures. Advanced systems can identify abnormal voltage conditions with multi-level screening strategies.
Temperature tracking: Temperature is a critical factor affecting battery performance. Intelligent sensors monitor battery temperature to prevent overheating, which can lead to safety hazards. Studies show that battery degradation occurs more quickly when testing temperature exceeds normal operating ranges.
Current flow analysis: The system measures how much power flows in and out of the battery, helping predict when replacement will be needed. This real-time analysis enables predictive maintenance scheduling.
State of charge (SOC): This shows exactly how much power remains, similar to a fuel gauge but far more accurate.
State of health (SOH): This indicates the battery’s overall condition compared to when it was new. Research indicates that proper monitoring can detect high-risk, abnormal cells as early as one week before failure occurs.
Smart battery diagnostic system
This comprehensive diagram illustrates how modern smart battery systems work together to provide continuous monitoring and predictive maintenance. The system begins with three core sensors that collect real-time data: voltage sensors detect electrical anomalies, temperature sensors prevent overheating, and current sensors measure power flow. All sensor data feeds into the Battery Management System (BMS), which processes information using advanced algorithms and predictive analytics to identify potential issues before they become failures. The BMS communicates with the vehicle’s main computer, enabling dashboard warnings, automatic maintenance scheduling, and optimization of systems like stop/start technology. Finally, cloud connectivity allows for remote diagnostics, fleet management, and continuous software improvements based on data from millions of vehicles worldwide.
Preventing failures with predictive intelligence
The real power of smart batteries lies in their ability to predict problems. According to a report by Frost & Sullivan (2022), real-time monitoring can improve battery lifespan by up to 30%. This predictive capability means you’ll get advance warning before your battery dies, giving you time to plan a replacement rather than facing an emergency situation.
Research from UC Davis and BYD shows that machine learning techniques can predict battery failure using charging voltage and temperature curves from early cycles, even before symptoms appear. The most advanced systems achieve an average misclassification test error of just 7.7%, making them highly reliable for real-world applications.
Traditional battery testing often misses early warning signs. By the time a standard battery test shows problems, the battery may already be close to failure. Smart systems catch these issues weeks or months earlier, with some studies indicating detection capabilities up to one week before actual failure occurs.
Statistical analysis of real-world data has proven that frequency of battery faults drops sharply at low temperatures during winter months, providing valuable insights for maintenance scheduling and vehicle operation planning.
Integration with modern vehicle systems
Smart batteries work seamlessly with other car systems. The function of the battery sensor is particularly important in vehicles with Stop-Start feature, as the battery management system must verify that the battery has enough charge to re-start the vehicle.
This integration affects several areas:
Stop-Start Systems: These fuel-saving features rely on smart battery data to know when it’s safe to shut off the engine at traffic lights.
Charging System Control: The car’s alternator adjusts its output based on real-time battery condition, improving fuel efficiency.
Climate Control: Air conditioning and heating systems can reduce power consumption when the battery needs protection.
Advanced diagnostics and connected intelligence
Modern smart batteries don’t work in isolation. These sensors often feature advanced communication interfaces, such as CAN bus or Bluetooth, enabling data transfer to external devices or systems. The global automotive battery market size was valued at USD 69.11 billion in 2023 and is projected to grow at a CAGR of 6.4% from 2024 to 2030, largely driven by these technological advances.
Professional mechanics can now access detailed battery history through diagnostic tools. This information helps them make better decisions about repairs and replacements, potentially saving you money on unnecessary work. Industry studies show that predictive maintenance strategies can achieve return on investment within 18-24 months through reduced maintenance visits and extended battery life.
Some systems even connect to smartphone apps, letting you check your battery’s health from your phone. Fleet operators can monitor entire vehicle fleets remotely, scheduling maintenance more efficiently. Research indicates that fleet operators using these systems achieve 22% longer battery lifespans compared to those relying solely on voltage monitoring.
The technology powering the future
Smart battery systems use sophisticated algorithms to interpret sensor data. By creating a data flow from the car to the cloud, algorithms interpreting the data work with a much bigger database – not just data from one car. This is part of a learning-system approach constantly improving the analysis.
Cloud-based AI-enhanced frameworks leverage emerging technologies to predict battery behavior throughout the entire cycle. These systems can process massive datasets – with some research programs analyzing data from millions of electric vehicles worldwide. The Automotive Battery Market size is expected to reach USD 112.42 billion in 2025 and grow at a CAGR of 20.53% to reach USD 285.97 billion by 2030.
This cloud-based approach means your car’s battery system gets smarter over time, learning from millions of other vehicles to provide more accurate predictions. Machine learning models can identify patterns such as cyclic stress impacts and environmental factors that affect battery performance, leading to more precise maintenance recommendations.
Benefits for Irish drivers
Ireland’s variable weather conditions make smart battery technology particularly valuable. Cold winters and damp conditions can stress traditional batteries, but smart systems provide early warnings when weather-related problems develop. Research shows that battery capacity decreases substantially as temperature drops, primarily due to increased electrolyte viscosity at low temperatures.
Cost Savings: By extending battery life and preventing unexpected failures, smart systems reduce the total cost of vehicle ownership. Studies indicate that proper battery management can extend battery life by 10-20%, representing significant savings over the vehicle’s lifetime.
Reliability: Advanced warning of battery problems means fewer roadside breakdowns and emergency callouts. Industry data shows that predictive maintenance reduces unexpected vehicle breakdowns by up to 30%.
Environmental Benefits: Longer-lasting batteries mean fewer old batteries going to waste, supporting Ireland’s environmental goals. The circular economy principles driving European policy have increased interest in battery sensors that facilitate recycling and second-life applications.
Convenience: Real-time monitoring eliminates the guesswork around battery replacement timing. Fleet studies demonstrate that operators using intelligent battery management achieve ROI within 18-24 months through reduced truck rolls and extended battery life. Car battery for VW Passat is just as important as for all other cars, and smart monitoring technology provides the same level of protection and predictive maintenance across all vehicle brands and models.
Changing the maintenance landscape
Smart battery technology is changing how we think about car maintenance. Instead of replacing a car battery on a fixed schedule or waiting for them to fail, we can now replace them at the optimal time based on actual condition data.
This shift from reactive to predictive maintenance represents a fundamental change in vehicle care. The transformative role of artificial intelligence (AI) in advancing EV battery diagnostics is explored herein, with an emphasis placed on the complexities of predicting and managing battery health.
Research from multiple automotive institutions shows that data-driven approaches can effectively detect abnormal conditions and predict failures with unprecedented accuracy. For example, multi-scale entropy methods can detect high-risk abnormal cells as early as one week before failure, dramatically reducing the risk of unexpected breakdowns.
Looking ahead to tomorrow’s technology
As electric vehicles become more common in Ireland, smart battery technology will become even more important. GM expects to pioneer a new “groundbreaking” EV battery technology that the automaker says will reduce costs and boost profitability of its largest electric SUVs and trucks.
The technology is rapidly evolving, with manufacturers developing even more sophisticated monitoring systems. The global smart car market has shown a steady upward trajectory at a CAGR of 17%, reflecting the growing adoption of advanced automotive technologies. In 2022, the market revenue was recorded at USD 57.5 billion, expected to rise to USD 67.3 billion in 2023.
Future developments may include wireless sensors that eliminate the need for physical connections, and AI systems that can predict battery problems months in advance. Asia Pacific led the overall vehicles intelligence battery sensor market with a market share of 32.4% in 2023, driven by robust automotive manufacturing and rapid EV adoption.
Smart car batteries represent a significant step forward in vehicle reliability and maintenance efficiency. By providing real-time health monitoring and predictive diagnostics, these systems help prevent breakdowns, reduce costs, and make car ownership more convenient. As this technology becomes standard across all vehicle types, Irish drivers can expect more reliable transportation and lower maintenance costs.
The revolution in battery diagnostics is just beginning, and the benefits for drivers are clear: fewer surprises, lower costs, and more reliable vehicles. Whether you’re driving a traditional petrol car or considering an electric vehicle, smart battery technology is making the roads safer and more dependable for everyone.
The casino floor operates as an intricate system that maintains enduring valuable assets while they remain in perpetual movement. The management of such large numbers of slot machines spread across extensive property spaces requires effective solutions which traditional monitoring systems cannot adequately handle. Radio Frequency Identification (RFID) technology stands as a solutions transformer which delivers complete visibility into every aspect of slot machine operations and maintenance processes as well as achievement of operational efficiency. The article evaluates the way that implementation of RFID technology transforms asset management practices within gaming establishments.
The Evolution of Casino Asset Tracking
Gaming establishments previously used manual inventory counts coupled with paper records to manage their machine inventory but such methods were both error-prone and inefficient. Modern casino businesses demand immediate monitoring capabilities together with advanced decision support tools to function in the current demanding setting. The needs of RFID technology for automated tracking stem from its ability to minimize human mistakes while delivering superior operational precision. Physical inventory procedures previously disrupted work processes due to personnel involvement in manual serial number documentation along with location tracking and maintenance record keeping while operating 24 hours a day.. The delays prevented timely decisions yet the operations became more strenuous. Integration of RFID systems provides casinos with dependable synchronized information collection which optimizes their asset tracking procedures. The implementation of this technology enables better control across the floor including management of high-demand games rainbow riches and their repositioning needs and maintenance tracking requirements. RFID technology allows casinos to perform more effective asset management by updating outdated procedures.
How RFID Works in Casino Environments
The main elements required for RFID systems include tags applied to slot machines and facility-wide distributed readers and software that processes the collected data interventions. Every slot machine needs an RFID tag which contains both a microchip and antenna that allows the reader to communicate with it. These readers obtain location details and program-generated information by scanning the vicinity without having to focus their line of sight like barcode scanning requires.
The technology has two operational modes based on particular implementation requirements. The low-cost passive RFIDs power up upon receiving signal strength from their associated readers to enable fundamental tracking needs. The built-in power supply included in active tags provides longer detection range and enables dual functions which combine temperature monitoring of gaming machine components along with data transfer abilities.
Benefits Beyond Basic Tracking
RFID systems create diverse operational advantages when implemented in casino establishments. Local tracking data provide the main benefit by eliminating time-wasting processes that require searching for specific machines throughout the facility. The system proves useful in floor reorganization because it allows management to check that equipment positioning matches optimization objectives.
Maintenance tracking functions as a vital advantage among all the benefits RFID systems provide to casino operations. RFID systems maintain service logs and scheduled maintenance schedules and parts replacement history either through attached tags or connected databases. Technicians no longer require extensive diagnostic times because machine maintenance profiles become visible upon tag scanning thus leading to better first-time fix rates.
The process of regulatory compliance becomes more streamlined because documentation gets automated. The gaming regulatory bodies expect gaming establishments to submit precise documentation about machine positions along with modification records and maintenance logs. RFID systems execute automated record creation to decrease operational workload and meet all necessary jurisdictional specifications.
Implementation Challenges and Solutions
Casinos need to handle the implementation issues measured within the deployment of RFID systems even though they offer many benefits. Electronic equipment presents a major obstacle to signal communication in gaming installations. Strategic reader placement combined with the right frequency selection effectively reduces these issues and advanced systems use data integrity maintaining signal filtering.
The process of connecting RFID solutions to current casino management platforms needs proper planning. Players within most gaming establishments depend on multiple software platforms to handle slot machines as well as player data recording and asset asset management tasks. The implementation of RFID systems becomes successful when data connects three different platforms through API connections or middleware solutions which deliver continuous data exchange between systems.
The start-up capital requirement for any investment project forms a significant challenge. The maturation of RFID technology has brought price reduction but many establishments need major capital investments to complete all-inclusive implementations. Such operators choose forward-thinking approaches by implementing the solution incrementally while beginning with valuable assets so they can use an earned return on investment to grow their operation further.
To Sum Up
The implementation of RFID technology enables complete monitoring and control of slot machine assets by converting manual operations into automated systems which provide extensive data resources. Improved integration and falling costs of implementation make RFID tracking available to medium-sized casinos which now see its business value.
The technology delivers strong business criteria through its dual function of decreasing operational expenses and enhancing regulatory adherence and maintaining equipment efficiency. Casino managers who want to gain market superiority through crowded competition spaces can establish operational excellence in asset management by implementing RFID systems. Gaming management institutions will benefit from emerging RFID technology advancements which will extend its applications into new casino operational areas thereby establishing this technology as a vital component for contemporary gambling sector management.
The XTOOL D5S diagnostic tool is an ideal piece of kit for motorists which come with a complete package for those want more other than their typical plug in OBD, this comes with sought after options such as Oil Light Reset, EPB, SAS, DPF, BMS Reset, Throttle, TPMS Reset, ABS Bleeding, Injector Coding, Gearbox Matching, Suspension, Window Initialization, Headlight, EGR Relearn, and Gear Learning.
There is plenty of such tools now available on the cheap and even in your local petrol station these days but they do not cut it and the cost reflects this, these just remove warning lights and they then return later on when it suits or if it is a persistent problem you will be doing it daily like I was on one of my vehicles until this product came along and fixed a well known error in my vehicle by activating a feature to clear the issue not just clear the issue with cheap OBD readers.
This is a well built product with plenty of other features on deck with live testing results too which is excellent and other parameters not seen on cheaper products which do not cut it.
There is a simple to use interface too which makes it simple and additional storage for other files you could run through the system.
It is built like a tank and will certainly take many falls from any height with a rubberised rugged finish it is the ideal tool to have if you are a mechanic or even a car enthusiast that will last a lifetime. See the video below for more.
Features
4 Systems, 1 Comprehensive Solution
For DIY enthusiasts tackling common automotive issues like engine, transmission, ABS, and SRS, the XTOOL D5S vehicle scanner offers specialized diagnostic capabilities. It efficiently identifies and clears fault codes, analyzes data streams, and ensures timely problem detection
Enhanced Hardware Support
Enjoy improved performance with the upgraded D5S diagnostic tool, featuring a dual-core 1.2GHz CPU, 128MB RAM, 32GB expandable ROM, and a user-friendly Linux operating system. The 3150mAh 3.6V battery ensures longer usage between charges.
15 Essential Maintenance Functions
The XTOOL D5S comes equipped with 15 of the most sought-after maintenance services (with free lifetime updates), including: Oil Light Reset, EPB, SAS, DPF, BMS Reset, Throttle, TPMS Reset, ABS Bleeding, Injector Coding, Gearbox Matching, Suspension, Window Initialization, Headlight, EGR Relearn, and Gear Learning
Graphical Live Data Stream
The D5S allows you to view up to 4 data streams simultaneously on a single interface, displaying them graphically. This feature helps users compare data and make informed, precise decisions.
Free Lifetime Updates
Stay ahead with free lifetime updates that keep you up-to-date with the latest parameters, vehicle models, and functions—no annual software fees required!
For years, technology had a huge part in pushing forward healthcare systems; but as recent technological advancements are made, the new developments have changed the face of healthcare in ways never seen before. From AI-based diagnostics to telemedicine, these innovations are changing patient care, saving lives, and streamlining healthcare systems. Here we will pick up where we left off and dig deeper into this technological revolution within healthcare, how it is shaping the future of the industry, and what that means for patients as well as providers.
1) Diagnostics and Medical Treatment;
AI and machine learning are leading the healthcare transformation. Artificial intelligence technologies allow to processing of huge volumes of medical data, including images and patient documentation for more accurate and quicker diagnoses. Further, machine learning models assist in tailoring treatment plans to individual patient data, a factor that can drive the benefits of specific interventions and improve the outcome for patients.
2) Telemedicine for Increased Care Access:
Telemedicine enables patients to consult healthcare providers at home through video conferences & remote patient check-ups. Therefore, more healthcare facilities are built in response to this which means care is delivered quicker which staves off or even reverses various adverse health outcomes related to patient delays in receiving necessary treatment.
Telemedicine can address routine annual visits, but also follow-up for chronic conditions, and in some capacity can provide a diagnostic workup – all of those are the elements that make it much better for individual users compared to just taking care of immediate urgent needs.
3) Wearable Technology:
The use of wearable technology — smartwatches and fitness trackers in particular — is transforming how patients begin to manage their health. They can monitor vital signs, track movement, and feed real-time health data back to the patient and healthcare teams.
So, for example, connected wearables could warn you of an abnormal heart rhythm or if you have high blood pressure and you may want to get it checked out. The result is that chronic conditions can be better managed, and people are more likely to make healthier lifestyle choices, which leads to an overall better state of health and well-being.
4) Advanced Diagnostics and Imaging:
Recent technological innovations in imaging and diagnostics may improve the accuracy and efficiency of medical examinations. Imaging like MRI and CT scans can provide detailed high-resolution images of invested parts of the human body to assist with more accurate diagnosing.
Further, advances in endoscope maintenance and design have increased the dependability and quality of endoscopy. Preventive maintenance measures help ensure endoscopic equipment performs at its best, minimize procedural complications, and enhance patient safety.
5) Healthcare Management:
Data analytics and electronic health records (EHRs) are making healthcare management more automated, integrating the entire accomplishment, recording as well helping in decision-making better than humans. EHRs offer a complete perspective of the medical history of a patient that facilitates easy access and sharing of information among healthcare providers.
Data analytics tools can identify trends, predict patient outcomes, and optimize resource allocation in real-time. Through the integration of these technologies, healthcare systems can boost efficiency and reduce errors, all while making care more personalized.
In conclusion, we all know, that for better diagnostics, treatment, and patient care technology is changing the future of healthcare in a good way. AI, telemedicine, wearable tech, and the most minute imaging technologies are enhancing healthcare delivery and experience. As these innovations continue to grow, so too are the promises of what we can do around health and wellness – resulting in more effective and efficient healthcare for everyone.
Piceasoft, Europe’s leading provider of mobile device lifecycle solutions, has expanded its Picea® Online mobile circularity platform by developing AI-supported self-service device diagnostics and troubleshooting capabilities. The new self-service features, currently being piloted with a major mobile operator, allow end users to remotely detect and resolve device issues or find the most relevant trade-in or repair options wherever they are.
Self-service capabilities make it easier than ever for end users to access the right services to get the most from their mobile devices. There is no need to visit a physical store; customers can initiate the service from a link or QR code. The platform also enhances mobile operators’ customer experience, allowing them to promote the most relevant add-on services, such as trade-ins and repairs at the right time, uniting mobile operators, trade-in vendors, and repair centers as a full-service ecosystem.
“Picea® Online’s expansion into self-service opens up a whole new workflow for mobile operators and gives them greater access to new business opportunities throughout the entire self-service journey,” says Samuli Ylinen, Product Director at Piceasoft. “The platform performs a personalized, AI-supported device analysis based on the issues experienced by the customer and then recommends resolutions for device problems. These allow operators to promote the most relevant add-on services, for example, trade-in, repair, or insurance, giving operators full control of the entire process through a single platform.”
The solution also promotes device circularity and prevents old phones from being scrapped and ending up as e-waste, as operators are able to offer trade-ins or repairs precisely when the customer needs them. Based on the results of the AI-supported diagnostics, operators can then provide tailored services addressing specific device issues experienced by the consumer.
“The new developments strengthen PiceaOnline as a comprehensive, all-in-one solution for mobile circularity. We’re effectively the middle layer between mobile operators and end customers, as well as the glue holding together all the ecosystem services from partners like trade-in vendors, repair centers, and insurance providers.” Ylinen explains.
Self-service, AI-supported diagnostics, and troubleshooting provide an additional time and cost-saving benefit by significantly reducing the number of No Fault Found (NFF) cases faced by mobile operators, retailers, and repair companies.
“According to our customers, as many as 60%-70% of devices sent for repair are recorded as NFF. NFF cases are very costly for operators and present a significant sustainability issue from the unnecessary shipping of devices that could have been fixed with the right self-service diagnostics,” Ylinen explains. “Most often, these could be avoided if users were guided in the diagnostics phase to perform simple steps like rebooting their device, updating to the latest software, or freeing up some of the devices’ memory.”
Increasing the supply of used mobile devices
Despite high and increasing demand, the supply of used mobile devices in the European market remains low. As this demand continues to grow, the market’s success depends upon increasing the supply of second-hand devices, for example, through effective trade-in programs.
“From a sustainability and mobile circularity point of view, self-service has an extremely high potential to drive change,” says Samuli Ylinen, Product Director at Piceasoft. “There’s a severe shortage of second-hand mobile devices, but there is significant, and increasing consumer demand. One of the major challenges holding back device circularity is the fragmented nature of the process for trade-ins. By supporting customer-driven processes, operators can significantly incentivize trade-ins by providing the best deals for the customers, which helps put more sought-after second-hand devices back into the market.”
Have you ever looked for an easy-to-use solution to diagnose and customise your BMW? With the recently launched OBDeleven BMW application, you can close your search tabs and use the small Bluetooth device to take your BMW, MINI, or Rolls-Royce to the next level with the latest solution on the market.
While the drivers of cars built by either of the manufacturers have long enjoyed various aftermarket solutions for their vehicles, the software-based changes you can make with OBDeleven are easily usable by every driver with pre-made coding functions. Furthermore, the dealership-level diagnostic capabilities of the device will allow you to save money on expensive trips to a workshop or the dealership.
The BMW application is a continuation of OBDeleven’s Volkswagen Group (VAG)-focused solution, which was first launched in 2014. Much like the new solution, the VAG application has allowed Volkswagen, Audi, Seat, Cupra, Škoda, Bentley, and Lamborghini drivers to diagnose and customise their vehicles on their smartphones.
BMW coding done for you
A perfect example of how even daily drivers can use OBDeleven to customise their BMW, or any other vehicle is the feature called One-Click Apps. These pre-made coding functions help users enable hidden features, as well as enable or disable various other features on your car.
For example, if you want to enable Video in Motion on your 3-series BMW for the passenger to watch while the car is moving, there is a One-Click App for that. Much like you can enable the iDrive startup animation when the head unit is turning on the NBT EVO Navigation system (S609A). You can also further “sportify” your dashboard by enabling Sport Displays on the G21, which will showcase the real-time numbers of kilowatts and torque on the head unit.
These features and more can be enabled or disabled instantly with One-Click Apps, as they have been prepared and coded by the development team at OBDeleven. Thus, no programming knowledge is required from the users’ side, enabling daily drivers to customize their BMW, MINI, or Rolls-Royce cars.
Diagnostic or scanning tool
Another feature that OBDeleven offers to its community is easily accessible dealership-level diagnostics. Eliminating the need for heavy and uncomfortable equipment, the small Bluetooth device provides all the information you would need to determine an issue following a warning light on the dashboard.
Even if there is no critical fault, which would be displayed on the dashboard, a full scan can reveal any potential issues you might have that could turn critical sooner rather than later.
The full scan procedure goes through all the control units, such as the engine, gearbox, braking system, electronics, and others, looking over whether there are any fault codes present. If there are, you will be able to read about the fault and receive the exact code, which will help you find out more about the issue and what kind of parts you would need to investigate to alleviate the issue.
Information about all your connected vehicles
If you have a few cars in your family garage, the Garage function will show all the cars that you have connected to your account via the OBDeleven device, as well as showcasing the Vehicle Identification Number (VIN).
When you enter the Garage tab on the OBDeleven app, you can see the series and the model of the car you have plugged the OBD-II device in, as well as the VIN, the year or the year range when the vehicle was built, as well as information about the control units present on the automobile. You can also view all of the One-Click Apps that are potentially available on it – including those that might not be available on your exact car due to the differences in equipped control units – allowing you to view the potential modifications you can do to your car once you plug in the device into the OBD-II port.
So, if you are looking to customise or diagnose your car without any difficulty, check out the full features list and give OBDeleven a try.
