Tag: #sensors

Using sound waves to create a smart T-shirt

Imagine wearing a T-shirt that measures your breathing or gloves that translate your hand movements into commands for your computer. Researchers at ETH Zurich, led by Daniel Ahmed, Professor of Acoustic Robotics for Life Sciences and Healthcare, have laid the foundations for just such smart textiles. Unlike many previous developments in this area, which usually use electronics, the ETH researchers rely on acoustic waves passed through glass fibres. This makes the measurements more precise and the textiles lighter, more breathable and easier to wash. “They are also inexpensive because we use readily available materials, and the power consumption is very low,” says Ahmed.

Acoustic sensors embedded in fabric

The researchers call their development SonoTextiles. They have transformed normal fabrics into smart sensors that react to touch, pressure and movement. “While research has already been conducted into smart textiles based on acoustics, we are the first to explore the use of glass fibre in combination with signals that use different frequencies,” explains Yingqiang Wang, the first author of the study that has been published in the journal external pageNature Electronics.

The researchers have woven glass fibres into the fabric at regular intervals. At one end of each glass fibre is a small transmitter that emits sound waves. The other end of each of the glass fibres is connected to a receiver that measures whether the waves have changed.

Each transmitter works at a different frequency. This means it requires little computing power to determine which fibre the sound waves have changed on. Previous smart textiles often struggled with data overload and signal processing issues, since each sensor location had to be evaluated individually. “In the future, the data could be sent directly to a computer or smartphone in real time,” says Ahmed.

When a glass fibre moves, the length of the acoustic waves passing through it changes, as they lose energy. In the case of a T-shirt, this can be caused by body movement or even breathing. “We used frequencies in the ultrasonic range, around 100 kilohertz – well beyond the range of human hearing, which is between 20 hertz and 20 kilohertz,” Wang emphasises.

Highly versatile

The researchers have shown that their concept works in the lab. In the future, SonoTextiles could be used in a variety of ways: as a shirt or T-shirt, they could monitor the breathing of asthma patients and trigger an alarm in an emergency.

The material remains elastic despite the interwoven glass fibres. The sound waves measure when someone breathes in and out. (Video: Daniel Ahmed / ETH Zurich)

In sports training and performance monitoring, athletes could receive real-time analysis of their movements, to optimise their performance and prevent injuries. The textiles also have potential for sign language: gloves with this technology could simultaneously translate hand movements into text or speech. They could also be used in virtual or augmented reality environments.

“SonoTextiles could even measure a person’s posture and improve their quality of life as an assistive technology,” adds Chaochao Sun, who shares first authorship of the study. People who want to improve their posture could receive targeted feedback to correct poor posture. The textiles could also indicate when a wheelchair user needs to change position to prevent pressure ulcers.

Although the everyday usability of SonoTextiles is potentially very high, Ahmed adds that there is still room for improvement in terms of practical application. Glass microfibres worked well as sound conductors in the lab, but they could potentially break in everyday use. “The beauty is that we can easily replace the glass fibres with metal. Sound also propagates effectively through metal,” explains Ahmed, adding “We would like to expand our research in this direction and also into other applications.” The researchers now want to make the system more robust and examine how the electronics can be better integrated into the textiles.

How Technology is Reshaping Slip and Fall Safety: Innovations for a Safer Future

Slip and fall accidents are among the most common causes of personal injury worldwide. While these incidents may seem commonplace, the reality is that they can lead to significant physical, emotional, and financial repercussions for victims. For businesses, slip and fall incidents often result in costly legal battles, increased insurance premiums, and potential damage to their reputation. Fortunately, advancements in technology are changing the way we prevent, manage, and respond to slip and fall accidents, offering both businesses and individuals smarter solutions to mitigate these risks.

As technology continues to evolve, it is revolutionizing safety measures in public and private spaces. From intelligent flooring solutions to wearable devices that monitor personal safety, technological innovations are enhancing the ability to detect, prevent, and respond to slip and fall accidents in real time. These developments not only offer a higher level of protection but also provide data-driven insights that can help both individuals and businesses address safety issues more effectively.

Smart Building Technologies and the Future of Slip and Fall Prevention

According to www.mgalaw.com, modern building designs have been increasingly incorporating smart technologies that are specifically aimed at reducing the likelihood of slip and fall accidents. For example, sensor-enabled flooring systems are being developed to detect hazardous conditions like wet floors, which can automatically trigger warnings or activate drying mechanisms. This is particularly useful in high-traffic areas like shopping malls, airports, and restaurants, where accidents are more likely to occur due to environmental factors.

In addition to wet floor sensors, smart lighting and environmental control systems are helping create safer spaces by ensuring that all areas are well-lit and that temperature fluctuations, which can cause icy surfaces, are minimized. These technologies are not only reducing the occurrence of slip and fall incidents but also providing building owners and managers with real-time data on risk factors. By analyzing this data, they can take proactive measures to address issues before they lead to accidents. Furthermore, such smart systems can be integrated into existing infrastructure, offering businesses a cost-effective way to enhance safety without overhauling their entire building setup.

Wearable Tech and Personal Safety Monitoring

Another area where technology is making a significant impact on slip and fall prevention is in wearable technology. Devices like smartwatches and health trackers are increasingly being equipped with fall detection capabilities. These wearables can sense when an individual has fallen and automatically send alerts to emergency contacts or medical services. This is especially valuable for elderly individuals or those at high risk of falling due to mobility issues, as it ensures a quicker response in critical situations.

The integration of these wearables with other smart systems within the home or workplace also enhances safety by triggering immediate responses in the event of an accident. For example, a smart home system could be programmed to notify a caregiver if a fall is detected, providing a rapid and effective response. Moreover, the data gathered by these wearables, such as the force of impact or the exact location of the fall, can be used as crucial evidence in personal injury claims, ensuring a fairer process for the victim and helping businesses improve their safety protocols.

The Role of AI and Data Analytics in Slip and Fall Prevention

Artificial intelligence (AI) and data analytics are revolutionizing the way businesses manage slip and fall risks. AI-powered systems are capable of analyzing vast amounts of data to identify potential hazards before they lead to accidents. For instance, AI can predict high-risk areas within a building based on factors like foot traffic, weather conditions, and previous accident reports. By continuously monitoring these variables, businesses can anticipate and mitigate risks in real time.

Data analytics also play a significant role in improving safety procedures. Businesses can collect and analyze data from various sources—such as incident reports, sensor systems, and employee feedback—to identify patterns and areas that require attention. With this information, companies can make informed decisions about where to implement additional safety measures, such as installing non-slip flooring or increasing lighting in dimly lit areas. The result is a more proactive approach to safety that minimizes the likelihood of accidents and enhances overall building security.

Real-Time Monitoring Systems for Immediate Action

Another promising innovation in slip and fall prevention is real-time monitoring systems. These systems, often equipped with sensors and cameras, can continuously assess the condition of floors, walkways, and other high-risk areas. If the system detects a wet floor, uneven surface, or other hazardous condition, it can immediately send alerts to staff members, prompting them to take action before an accident occurs.

In addition to preventing accidents, real-time monitoring systems can also provide valuable insights into how incidents unfold. By analyzing incident data, businesses can identify specific trends or recurring issues, enabling them to improve their safety measures over time. These systems are especially effective in high-traffic areas, where slip and fall risks are elevated, ensuring that safety concerns are addressed as soon as they arise. With the help of real-time monitoring, businesses can create safer environments and reduce the likelihood of costly accidents and legal claims.

Conclusion: Leveraging Technology to Create Safer Environments

As technology continues to advance, its impact on slip and fall prevention and safety management becomes increasingly evident. From smart building technologies and wearables to AI-powered analytics and real-time monitoring systems, the tools available to prevent and manage slip and fall incidents are more sophisticated than ever. These innovations not only enhance the safety of individuals but also provide businesses with valuable data to improve their risk management strategies and reduce liability.

The future of slip and fall prevention lies in the integration of these technologies, offering businesses and property owners smarter, more effective ways to maintain safety. By embracing these advancements, both individuals and businesses can create safer environments that minimize the occurrence of slip and fall accidents. Ultimately, the continued development and adoption of technology-driven solutions will lead to a safer, more responsive world for everyone.

 

Sunseeker X5 Wireless Robotic Mower Review

The Sunseeker X5 is a wireless robotic mower for lawns up to 2000 sqm. It uses AONaviTM Positioning and Navigation System which uses Real-Time Kinematic (RTK) satellite positioning technology and VSLAM visual navigation. All that ensures accurate boundary setting and work routes regardless of obstacles or the unique shape of your lawn.

Equipped with two 3D binocular camera Vision AI System excels in perceiving the surrounding environment and navigating obstacles seamlessly. Supported by our proprietary deep learning algorithms, it consistently enhances its comprehension of landscapes through continuous data accumulation.

This all-wheel-drive model offers an exceptional 60% climbing ability, making it perfect for even the most challenging garden environments and we have been testing this out over the last few weeks when the right weather was available and this has all the bells and whistles.

My back garden is not flat either which gave this its own challenges and worked a treat in the end and even when mapping the garden obsticals where put in the way to test out the 3D binocular camera vision and again it was a piece of cake and getting the job done with and without the obstacles in the way, you can map several parts of your garden to your desire and create work schedules and more within the app which is pretty simple to use overall and you can see all this in the full video review below.

The set-up takes a few minutes I would suggest you put the antenna nearer your router for better signal and Bluetooth sometimes seemed to disconnect within a short range at time especially when mapping the mower however after some app updates which I had three of during my testing periods this seemed to cleared so be sure to get the latest app version, the app was tried on both Android and iOS devices for a clearer picture as we do with all out tech as sometimes there is some slight variants.

Once set up you can choose to move the Sunseeker by yourself via the remote control on your phone via the app or let it go and work by itself and fear not anything that does get in the way purposely will be avoided same as anything recorded in the mapping, you can set boundaries too and basically design your own layout if you have the room to do so as for the basic cut this is a breeze for the Sunseeker X5.

There is plenty of protection on the mower too with bumpers up front all really good suspension and of course it is all wheel drive and it not loud either as you will see in the video below compared to the standard mower which annoys most people especially those who do it early in the morning time which is a pet hate of mine and this will  not annoy your neighbours when it is your turn and gently flows around your garden and is fun to watch. The only obvious caveat is there is no bucket to catch the grass but hey this does the rest for you.

 

Sunseeker App

 

Features

Technology RTK+AI+VSLAM
Max. mowing area 2.000 m²
Min./max. mowing height 20-60 mm
Mowing height adjustm. manual
Mowing width 22 cm
Battery capacity 5 Ah
Charging current 3A
Max. slope inclination 30° / 60 %
Settable areas Up to 8 8
Noise level 60 dB
SPECIAL FEATURES:
No boundary wire
RTK charging station
Map
App/Wifi/Bluetooth
Systematic mowing
AWD all-wheel-drive system
Edge cutting
Floating mowing unit
Obstacle detection
Rain sensor
Alexa / Google Home smart assistant support
FOTA (FirmwareOverTheAir)

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Video Review

 

 

 

 

New edge amplifier takes production applications to the next level by enabling seamless IT/OT interoperability

HBK, a global leader in test and measurement solutions, has announced the launch of digiBOX, a next-generation, multi-channel edge-amplifier, tailored to meet the demands of industrial process control and weighing applications.

With the advent of Industry 4.0, the need for measurement solutions that can process complex data streams in real time – while ensuring precision, reliability and connectivity – has never been greater.

HBK’s Edge Amplifier, digiBOX combines precision, advanced connectivity, industrial-grade durability and modular flexibility, setting a new standard for optimising industrial and weighing processes. It’s specifically designed to suit a range of industrial, manufacturing and weighing applications.

The digiBOX allows for close-proximity placement to sensors and offers real time processing of measurement data. It’s seamless IT/OT integration enables advanced interoperability between information technology and operational technology systems.

The edge-amplifier’s modular design is available in 2- or 4-channel configurations, supporting a wide range of sensors (strain gauges, load cells and piezoelectric sensors). It’s user-friendly interface provides intuitive setup, monitoring, and remote management.

digiBOX’s hardware has IP67-rated housing in order to withstand harsh conditions such as dust, moisture and vibrations.

The flexible and robust amplifier is available in two domain-specific firmware choices, tailored to meet   specific industrial and weighing application needs: the first is digiBOX Industrial, which has been engineered to handle the requirements of modern industrial production such as press-load monitoring, joining-processes and assembly lines. This versatile amplifier ensures precise measurements, seamless data integration and reliable performance for force-based assembly, quality control or process optimisation.

The second option is digiBOX Weighing: specifically designed to meet the critical demands of weighing applications, offering unparalleled accuracy, seamless integration and robust performance. digiBOX Weighing ensures consistent results, minimises errors and maintains operational efficiency across applications including checkweighing systems, high-precision industrial scales and automated filling processes.

HBK’s Product Manager for Smart Sensors, Martin Schütz said: “The digiBOX edge-amplifier is not just a new amplifier generation. It is an innovative solution that uniquely combines IT/OT connectivity on a single device, which allows customers to build and realise actual Industry 4.0 applications. Now it is possible to extract the measurement data, in parallel to the amplifier being connected to the machines PLC.

Using protocols like MQTT and openDAQ customers can integrate the digiBOX into cloud applications, perform DAQ analysis and transmit relevant process data into productivity software. These capabilities are now possible for piezoelectric and strain-gauge based sensors in industrial and weighing applications.”
Learn more about digiBOX on HBK’s website: https://www.hbkworld.com/en/Campaign/industrial-production-control-4-0-and-weighing-processes

Smart Floors and Sensors: Revolutionizing Safety to Prevent Slip and Fall Accidents

Incidents involving slips and falls represent a significant concern in both residential and commercial environments. According to the National Safety Council, slip and fall incidents account for over 8 million emergency room visits each year in the United States alone. These accidents can lead to severe injuries, legal liabilities, and financial burdens for both victims and businesses. As a result, the need for effective preventive measures has never been more crucial. Enter smart floors and sensors—innovative technologies that promise to transform safety protocols and drastically reduce the occurrence of such accidents.

Understanding Slip and Fall Accidents

According to one law firm, incidents involving slips and tumbles happen when a person loses their stability due to unsafe conditions and suffers injuries. These occurrences can take place in various environments, such as retail establishments, sidewalks, and corporate offices. Notably, the elderly and individuals with mobility issues are particularly vulnerable, often facing more severe consequences from such tumbles.

Statistics illustrate the gravity of the situation: slip and fall accidents rank as the second leading cause of unintentional injury deaths in the United States, trailing only motor vehicle accidents. The repercussions extend beyond physical harm; they can lead to emotional trauma, lost productivity, and financial strain from medical expenses and legal fees. Therefore, addressing the root causes of these incidents is imperative for fostering a safer environment.

The Role of Technology in Safety

Technological advancements have revolutionized various industries, and safety is no exception. The introduction of smart floors and sensors exemplifies how innovation can enhance safety measures and prevent accidents. Smart floors integrate advanced sensor technology to monitor and analyze environmental conditions in real-time, alerting users to potential hazards before incidents occur.

These systems can detect moisture levels, temperature changes, and even the presence of foreign objects. For instance, if a floor becomes wet due to a spill, sensors can trigger an immediate alert, prompting cleaning personnel to address the situation. By leveraging data and insights generated from these systems, businesses can create a proactive approach to safety, ultimately reducing the risk of tumbles and falls.

How Smart Floors Work

At the core of smart flooring technology lies a network of sensors strategically embedded in the flooring material. These sensors continuously monitor environmental factors that contribute to slips and falls. For instance, moisture sensors can detect spills or leaks, while pressure sensors can analyze foot traffic patterns to identify areas with increased risk.

The data collected by these sensors is transmitted to a central system that analyzes the information in real-time. If the system detects a potential hazard, it can send alerts to staff or management through mobile applications or dedicated dashboards. This immediate feedback loop allows for swift intervention, significantly lowering the chances of accidents occurring.

Case Studies and Applications

Numerous businesses have already adopted smart flooring solutions with remarkable results. For example, a large retail chain implemented smart floors in high-traffic areas to monitor slip hazards. After the system went live, the company reported a 30% reduction in incidents involving slips and falls within the first year. Additionally, customer satisfaction improved, as shoppers felt safer navigating the store.

In healthcare settings, smart flooring has proven invaluable. Hospitals have adopted these systems to ensure the safety of patients and staff, particularly in areas prone to spills. By minimizing hazards, these facilities not only protect individuals but also reduce their liability and insurance costs. The success stories from various industries underscore the potential of smart floors to revolutionize safety standards.

Challenges and Considerations

While the benefits of smart floors are clear, some challenges may arise during implementation. One primary concern is the initial investment required to install these advanced systems. For some businesses, especially smaller ones, the cost may be a significant barrier. However, it’s essential to consider the long-term savings associated with reduced accidents, lower insurance premiums, and improved employee productivity.

Moreover, organizations must ensure that staff are trained to effectively use and maintain the smart flooring systems. Without proper training, the technology’s effectiveness may diminish, leading to potential lapses in safety protocols. Regular maintenance and updates are also crucial for ensuring that the sensors operate optimally and deliver accurate data.

Future Trends in Safety Technology

Looking ahead, the future of safety technology appears promising. Innovations in artificial intelligence (AI) and machine learning are poised to enhance the capabilities of smart flooring systems. By analyzing historical data, these technologies can predict potential hazards and offer insights into how to mitigate risks effectively.

Moreover, the integration of smart floors with other safety technologies—such as video surveillance and building management systems—could provide a comprehensive approach to workplace safety. This holistic strategy could not only enhance prevention of slip and fall accidents but also address various safety concerns, creating safer environments for all.

Conclusion

In conclusion, the integration of smart floors and sensors represents a significant advancement in the quest to prevent slip and fall incidents. By leveraging cutting-edge technology, businesses can proactively monitor and address hazards before they lead to injuries. As the world continues to embrace technological innovations, the potential for creating safer environments grows. Investing in smart flooring solutions not only enhances safety but also contributes to a more productive and positive experience for employees and customers alike. Embracing these technologies can pave the way for a future where slip and fall accidents are significantly reduced, ensuring safety for all.

 

The Latest Technology Used in Home Stairlifts

You or your loved one with mobility retirements can use home stairlifts to get some mobility and freedom back. Installing a home stairlift in your home can help you to transport those with mobility issues up and down stairs safely. Home stairlifts provide a sense of independence and enhance quality of life. 

Home stairlifts are affordable and come with unique features. Home stairlift technology can make stairlifts convenient and reliable. The advancements in technology enhance the safety, comfort and effectiveness of home stairlifts. 

Read on to learn the latest technology used in home stairlifts: 

Memory Seats

Do you use a stairlift to get up and down stairs in your home? Then, you probably want to find the perfect seated position. Thankfully, memory seats allow you to store your preferred seat position and height. You can program your preferred seat position and height. Your stairlift will automatically adjust to your saved settings. 

Emergency Stop Mechanisms 

Home stairlifts have emergency stop mechanisms. The emergency stop button provides an additional safety layer. You will just press the button during an emergency. It will stop your stairlift quickly and safely. You will not even feel sudden jerking movements. So, you do not have to worry about falling down the stairs. The emergency stop button can give you and your loved ones peace of mind. 

Obstruction Detection System

Home stairlifts come with obstacle detection systems. The obstruction detection system detects potential obstacles on the stairs. How? It uses infrared sensors or lasers. So, if the system detects an obstacle, the stairlift automatically stops. The purpose of this feature is to avoid a collision and keep the users safe. You will never have to worry about your loved ones. 

Pressure Sensors

Pressure sensors are embedded in the seat. They detect whether the home stairlift is occupied. Therefore, it prevents the stairlift from operating accidentally. For instance, if you accidentally bump the control, the stairlift will not move. The lift only moves when the seat is occupied. The pressure sensors can also stop the stairlift if the lift encounters obstacles. 

Powered Footrests

You no longer have to manually adjust footrests. Powered footrests are one of the best safety features found in modern home stairlifts. You can adjust the footrest with a simple press of a button. And the footrests automatically retract and extend as your stairlift moves. Powered footrests can improve user experience and ensure a smooth ride. 

Swivel Seats

Many modern home stairlifts feature swivel seats. Swivel seats rotate 45 or 90 degrees. So, they can help you mount and dismount the stairlift. That is why they are suitable if your legs are weak. You will be able to get on and off the seat of your stairlift with ease. They can reduce the risk of falls. 

Mobile App Connectivity

We use our mobile phones to do so many things. You can, for instance, use your smartphone to control electronic devices. Nowadays, you can also use your smartphone to control your home stairlift remotely. You can even monitor the operation status of your stairlift from your smartphone. You will, therefore, be able to manage your mobility needs easily. 

Smart Home Integration

Do you want to control your home stairlift with your voice? It is now possible. In fact, you can use virtual assistants, such as Google Assistant or Alexa, to control your stairlift. You do not even have to press a button to control your stairlift. You will just use your voice to control it. And if you want to create a smart home, your home stairlift can be connected to other smart devices in your home. 

Backup Battery 

You may want to use your home stairlift throughout the day. Thankfully, modern home stairlifts have a backup battery. So, you do not have to worry about power outages. If there is no power in your home, you can still use your stairlift. The backup battery charges automatically. And it holds power for 6 – 8 trips. 

Speed Control 

You need to consider the speed at which the home stairlift travels. Stairlifts have a speed of around 0.16 to 0.34 miles per hour. Manufacturers place speed limiters on modern home stairlifts. The speed limiter prevents speed malfunctions. So, it prevents dangerous speeds. It will ensure the stairlift does not exceed the top speed of the stairlift. If you can prevent your stairlift from going too fast, you can prevent unnecessary accidents in your home. 

Emergency Contact Button 

Some modern home stairlifts have an emergency contact button. You can use it in an emergency to contact emergency services or a loved one. You will just program the emergency contact button. The stairlift can even store multiple emergency contacts. 

Diagnostic Systems

You would want to know the well-being of your home stairlift. You can, therefore, use the diagnostic display to monitor the performance of your stairlift. The diagnostic system can even help you detect potential issues. You will need to fix these issues to prevent breakdowns. The system alerts service providers and users. Do not ignore these alerts. 

Final Thoughts 

Modern home stairlifts from trusted local companies such as O Connor Carrol Stairlifts Kildare are safe and convenient. They provide a safe way to go up and down the stairs. They can reduce the risks of falls in your home. However, you still want to make sure your home stairlift suits your needs. You may need to test different models to find the best one for your home. 

A good home stairlift is affordable and convenient, comfortable and can help you gain independence. Do not forget to maintain your stairlift. Why? Regular maintenance can extend the lifespan of your stairlift.

The Technology Behind Today’s Smart House Alarms

Gone are the days when a house alarm simply shrieked to alert the neighborhood of a break-in. Today, safeguarding our homes involves intricate networks of interconnected devices, each playing a specific role in a sophisticated security dance. This evolution, while offering unparalleled protection, can be overwhelming for homeowners simply seeking peace of mind.

Sensors

Motion sensors come in two main flavors: passive infrared (PIR) and microwave. PIR sensors detect the heat emitted by moving bodies, while microwave sensors bounce radar waves to sense changes in the environment. Both boast a wide reach but are occasionally tricked by the playful movements of pets.

Ever wondered how your alarm system knows when a door or window has been opened? Door and window sensors work their magic through a simple but clever mechanism. Two magnetic fields, perfectly aligned when the door or window is closed, are disrupted when opened, triggering an alert. Some systems even take this a step further, offering sensors that virtually disappear into the woodwork, keeping your security discreet and your aesthetic intact.

Glass break sensors listen for the distinct frequency of shattering glass. These devices aren’t fooled by the everyday sounds of a bustling household. Their finely-tuned “ears” are specifically calibrated to detect the unique frequency of breaking glass. Whether it’s a window pane or a sliding glass door, these sensors can differentiate between a harmless bump and a potential security breach.

But modern alarms extend beyond the basic detection of intruders. Environmental sensors, like those for smoke, carbon monoxide, flooding, or extreme temperature fluctuations, broaden the scope of protection. They act as early warning systems for potential hazards, ensuring your home is safeguarded not just from intruders, but from a wider array of threats.

Communication Technologies

Modern house alarms are more than just sensors detecting disturbances. They need to communicate those detections effectively, both within the home and to the outside world. The method of communication can drastically affect the alarm’s reliability and capabilities.

The backbone of this communication can be a traditional landline, offering reliable connectivity but susceptible to tampering. Cellular communication, on the other hand, provides a wireless lifeline, immune to cut wires but potentially pricier. For those embracing the smart home revolution, Wi-Fi and protocols like Z-Wave or Zigbee weave together sensors, sirens, and apps into a seamless system.

But what happens when the power grid fails? Battery backup systems step in, ensuring your alarm remains vigilant even in darkness. Some alarms take communication a step further, directly alerting professional monitoring services who can dispatch authorities if needed. Others empower homeowners with self-monitoring, delivering alerts straight to their smartphones, a choice balancing cost and control.

Smart Home Integration

Today’s home alarms transcend their traditional role as mere security devices. They’ve become integral members of the smart home ecosystem, offering convenience and automation alongside protection.

Imagine strolling into your home, a simple voice command like “Alexa, I’m home” disarming your security system and turning on the lights. That’s the power of voice control, where virtual assistants become your alarm’s command center. But this integration goes far beyond the front door. With remote access via smartphone apps, you can arm or disarm your system from anywhere, receive real-time alerts, and even peek in on your property through live camera feeds.

Smart home alarms are masters of automation. They can orchestrate a symphony of actions triggered by an alarm event. Doors lock automatically, lights illuminate dark corners, and the thermostat adjusts to a pre-set temperature, all while you receive a notification on your phone.

But of course, all this comes with a few caveats. Ensuring the security of your smart home system through strong passwords and regular software updates becomes paramount in this interconnected landscape. The convenience of smart home integration is undeniable, but it’s essential to navigate this territory with an eye towards both the benefits and the potential pitfalls.

Choosing the Right System for You

The ideal alarm system is as unique as the home it protects. According to Conerney estate agents in Dublin, selecting the right one involves a careful balance of needs, budget, and future considerations.

Financial considerations are a natural starting point. Alarm systems span a wide range of costs, from basic DIY kits to elaborate professionally installed setups with monthly monitoring fees. It’s about finding the sweet spot between your security needs and what your wallet allows.

Speaking of DIY, some homeowners relish the challenge of installing their own alarm systems, while others prefer the peace of mind that comes with professional installation. Weigh the pros and cons, considering your comfort level with technology and the complexity of your chosen system. Remember that you could end up spending more money if you fail to install the alarm system properly. If in doubt, it’s best to leave this task in the hands of professionals.

Think ahead, too. Choose a system that can evolve alongside your needs. Perhaps you’ll want to add cameras in the future or integrate with other smart home devices. Opt for a system that offers flexibility and expansion options to avoid outgrowing your security setup prematurely.

Making the Smart Choice for Your Home

Understanding the technology used in modern house alarms is key to making informed decisions about protecting your home. From invisible motion detectors to door sensors that blend seamlessly into your home’s aesthetic, modern alarms offer a robust shield against intrusion. And with the added benefits of smart home integration, remote control, and automation, they offer not only security but a more convenient and connected lifestyle.

Tech Review – Switchbot indoor home security system

Home security is a must have be it indoor or outdoors and yet I hear today so called security experts stating there is no need at all for indoor security cameras. That is a topic at hand for another day should any security expert want to challenge me on that you can certainly fire away but I feel I will be left waiting the same way I was left reeling hering such on our airwaves more than once and is simply a pathetic comment to make.

The Switchbot indoor setup comes in several packages tailored for your needs or you can customise your own they have several bundles on offer or you can make it your own which is cool but do check out the bundles they have and not only that they are amongst the cheapest out there today and while I say cheap I have tried and tested these and avoid the cheap offerings you tend to see on Facebook that will rope you into subscription plans and below par cameras.

In our setup we have a motion sensor and window sensor on the camera side we have a 1080p pan and tilt a 2K pan and tilt and an indoor camera so i strategically place these around the home and at any entry points I seen where the could be a breach so to speak given I do have an external set up around the perimeter of my house

There is an app for these and no hub required unlike the old days when you did need a hub but you can use one if you like as they have hubs available but the less things plugged in the better these days and we just went on without one and all worked well.. Check out the app below but we have a good detailed video review below to check out what you can do in the app and the features included which is plenty I might add.

With the cameras you are in control and full control it is best to get an SD card to store locally on the device which you can then see on your smartphone or tablet these also work with Google and Alexa for those interested and can be put onto you home hubs if you wish. in the app you have so many settings to pick from which we go into detail with in the video review below but in short this setup is excellent and simple to use an navigate even for a novice there is many parameters you can pick from or customise in the app and overall for me as a whole the system is well thought out and you can get going in literally minutes.

Let’s look at the products we have tried out which give real time notifications but it must be noted you need good WiFi and lag latency can be an issue with any home security package similar and is an issue for me despite having a good plan and speed regardless what my network tells me and handing over my actual speeds and we all know how it works there and on how many other devices are connected to your hub.

With all cameras there is two way audio screen shot/photo capture, pinch to zoom, quality of image and video options, zone detection, recording on the spot and much more..

SwitchBot Pan/Tilt Cam 2K

SwitchBot Pan/Tilt Cam 2K features a high-resolution lens module, with an f2.0 aperture lens and now offers approximately 50% more pixels when videoing. This means picture quality is now clearer and colors are more transparent and natural.Upgraded auto-tracking supports horizontal and vertical movement. Compared to the previous generation, the tracking range is expanded by nearly 77%. It automatically tracks and records video whenever someone enters a home as you will see in the video. You can choose to have Pan/Tilt Cam 2K patrol specific areas at certain times of the day to allow you to focus more on the places that matter to you most.

 

 

SwitchBot Pan/Tilt Cam 1080p

When using the Pan and Tilt feature our camera can swivel from left to right and is able to tilt up and down enabling you to be able to view your entire room. You can also set 6 favorite key focal points and then simply select one to automatically pan over to the position you have set making it even easier to check specific areas on the fly. Equipped with a 1080p 2-megapixel f2.0 aperture camera, SwitchBot Pan/Tilt Cam is able to let more light in. Making images more detailed, and ensuring better results in any lighting conditions. When SwitchBot Pan/Tilt Cam detects movement, you’ll be able to automatically start tracking and recording whatever is in its sight, making sure you never miss a thing. And you’ll be able to view everything using our app via your smartphone for even more convenience.

SwitchBot Sensor Combo

Contact sensor with a detection range of up to 16.4 ft (5m), 90° horizontally, and 55° vertically

Get notifications around the clock

Sensor can detect body movement across a wider area range of up to 30 ft, at an angle of up to 110° horizontally, and 55° vertically A light sensor inside that can be used to detect what kind of light environment your surroundings are in.

SwitchBot Indoor Cam 1080p
SwitchBot Indoor Camera can help monitor your home 24 hours a day and can alert you when something unexpected happens. You can also live stream to your camera anytime, anywhere (supports 2.4GHz Wi-Fi networks only). And with night vision, 1080p HD resolution, and 130º Wide angle lens you’ll be able to see everything in front of you clearer than ever before. You can customize your own detection zones to set just exactly where SwitchBot Indoor Cam should be watching when sending alerts, making it easier to focus more on the areas at home that matter most.
Important note 
SwitchBot Indoor Cam uses high-level encryption technology to ensure your data is protected with the highest security so that no one else can access it. Your recorded data is stored in the cloud even if your device is offline (via a monthly cloud service). We also use GDPR and CCPA certifications to make sure that your user data is better protected.
Check out the video for more below and for me this is easy to recommend and would even consider changing my entire setup to this. So all we need now from them is a video doorbell. One thing I would like to see going forward is not having plugs for all the cameras and go wireless but other than that you should look into their stuff as it is good value and works well.

What is a flow sensor?

Flow sensors can be purchased at any reputable distributor, such as RS Components and are used for:

  • oil and gas 
  • solvents and chemicals
  • drugs 
  • industrial coolants 
  • steam 

 

Which type of flow sensor is right for my business?

Water flow sensor

As the water passes through the sensor, the turbine is rotated sending a signal to the wire coil attached.  The speed of the water passing through alters the speed the paddle or turbine is turned, providing a measurement of water flow. 

Magnetic-Inductive Volumetric Flow Meters

As conductive liquid flows through the magnetic field, a voltage signal is created, with the signal increasing with the speed of the flow. 

Thermal Mass Flow Sensor 

Capillary Thermal Mass flow meter

Gas diverted through a narrow tube is measured via signals between two PRTD coils attached to the tube. The difference in the signals travelling either with or against the current is directly proportional to the flow, providing a measurement of the mass of the gas flow.

Immersible Thermal Mas flow meter. 

A temperature sensor which measures the internal gas temperature and a velocity sensor are inserted through the piping into the flow with a constant differential maintained between each.  The heat from the velocity sensor transfers to the gas molecules as they pass.  The electrical wattage that is required to reheat the sensor is proportional to the mass flow rate providing an accurate measurement of total gas mass flow rate.   

Transit Time flow measurement 

A transducer emits an ultrasonic beam into the passing fluid which is reflected off present solid particles or air bubbles to the receiving transducer.  The frequency that the reflected beam is received measures the flow, as the frequency shift is linearly proportional to the flow rate.  

To measure flow that does not have bubbles or solid particles, the two transducers are placed on each side of the pipe diagonally opposite. The speed of the beam return changes according to whether the stream is going with or against the flow.  If the flow has stopped, the beam will travel at the same speed in both directions.  

 

Vortext shedding flow sensor. 

A blocking body inside the pipe causes vortices to form which then create zones of low and high pressure known as the Karmen Vortex Street.  A mechanical sensor detects changes in the pressure of the liquid measuring the flow by counting the vortices as they pass.  The difference between the vortices corresponds with a defined measurement of the fluid.

 

Choosing your flow sensor 

Ask your supplier about the most efficient type of flow sensor that will suit the velocity, viscosity, conductivity and  purity of your liquid or gas flow.  Higher quality flow sensors provide reliable data which will ensure that any issues with the liquid flow are immediately detected and preventative maintenance applied.  Discuss your needs with an expert to get the most accurate and efficient use out of your flow sensors.