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Soil Moisture Sensor

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Soil Moisture Sensor A soil moisture sensor is a device used to measure the volumetric water content in soil. It plays a crucial role in agriculture, environmental monitoring, landscaping, and irrigation management by providing data on soil moisture levels. Here are the main aspects of a soil moisture sensor: Functionality:  Soil moisture sensors typically work by measuring the dielectric constant of the soil, which changes with the water content. This measurement can then be used to determine soil moisture levels. Types: Tensiometers: Measure soil moisture tension or how strongly water is held in the soil. Volumetric Sensors: Calculate the percentage of water in a given volume of soil. Gypsum Blocks: Use gypsum as a medium to measure electrical resistance, which varies with moisture. Applications: Agriculture: Helps in optimizing irrigation schedules to avoid over- or under-watering, enhancing crop health and yield. Environmental Monitoring: Useful for tracking soil moisture trends i

Ordnance Survey unveils new Aerial Acquisition Framework

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Ordnance Survey unveils new Aerial Acquisition Framework Ordnance Survey (OS), Great Britain’s national mapping agency, has announced a new Aerial Acquisition Framework, which includes the participation of APEM, Bluesky International, and Fugro. The three companies have been chosen following a tender process, and OS now has access to the most up-to-date sensor technologies covering imagery, LiDAR, hyperspectral, and bathymetric data capture techniques. The framework will enable Ordnance Survey greater flexibility in the procurement of remotely sensed data, leading to more capacity building, and furthering a range of strategic objectives. “The three suppliers appointed are key in supporting OS in its development roadmap and will ultimately help our customers see a better place”, says David Dibble, Geospatial Supply Chain Manager, Ordnance Survey. We have a commitment to our customers to supply detailed and up-to-date geographic information for Great Britain, so working with different d

What is MDAQS? The Multi-Dimensional Audio Quality Score explained

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What is MDAQS? The Multi-Dimensional Audio Quality Score explained HEAD Acoustics As SoundGuys enters its 10th year, we continue to build and enhance our sound quality assessment toolkit with the addition of something very special. We are excited to announce that in collaboration with the audio test and measurement experts at HEAD acoustics GmbH, we’re bringing Multi-Dimensional Audio Quality Scores (MDAQS) to our product reviews. This represents a huge step forward for us. In this article, we will break down MDAQS, how we measure it, how it was developed, and how it will make our reviews more useful to everyone! Editor’s note: this article was updated on October 23, 2024, to clarify language and fix typographical errors. TL;DRMDAQS is a cutting-edge audio playback assessment technique encompassing advanced research into the human perception of sound quality. It simplifies the characterization of audio systems by producing three mean opinion scores plus an overall quality rating. It c

Bionic Sensors

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 A bionic sensor is an advanced, bio-inspired device designed to detect and respond to specific biological signals or environmental conditions, integrating seamlessly with living systems. These sensors mimic biological processes, often leveraging materials and designs inspired by natural sensory functions, to achieve heightened sensitivity, specificity, and biocompatibility. Bionic sensors are commonly used in medical diagnostics, prosthetics, robotics, and environmental monitoring. In healthcare, for example, they can detect physiological changes, such as electrical signals from muscles or nerves, and convert them into actionable data or control commands for prosthetics or monitoring systems. The design of bionic sensors often includes micro- and nanomaterials, allowing for flexible, wearable, or implantable applications, and they can be integrated with wireless technologies for real-time monitoring and remote data analysis. This integration between synthetic and biological components

Cloud’s innovation engine: Power up your business with scalability, data, and collaboration

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  Cloud’s innovation engine: Power up your business with scalability, data, and collaboration Cloud technology has revolutionised the business landscape, offering unprecedented access to computing resources, like servers, storage, databases, and networking via the internet on demand.  ScienceFather  cumbersome infrastructure management, marking a departure from the era of hardware expenses, limited scalability, and slow provisioning times. Modern cloud platforms are characterised by their flexibility in adjusting resources to meet evolving business requirements in real-time. This adaptability fosters innovation enabling businesses to experiment with new concepts, accelerate product launches, and swiftly respond to market changes. Moreover, cloud computing provides a global presence with positioned data centers, ensuring availability, minimal latency and seamless service delivery across geographic regions. However, the transition to cloud technology signifies more than cost savings; it

Infection prevention and control lapses

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Infection prevention and control lapses An Infection Prevention and Control (IPAC) lapse is a departure from infection prevention and control standards that could result in infectious disease transmission through exposure to blood or bodily fluids. IPAC lapses can occur at routinely inspected personal service settings (e.g., nail salons, tattoo, or piercing studios) and settings not routinely inspected by public health including regulated health professional settings (e.g., Physician or nurse practitioner, dental, or physiotherapy clinics). IPAC lapses are disclosed to the public in accordance with the provincial Infection Prevention and Control Complaint Disclosure Protocol. KFL&A Public Health reports on premises where an infection prevention and control lapse was identified through the assessment of a complaint or referral, or through communicable disease surveillance. It does not include reports of premises which were investigated following a complaint or referral where no in

SAP IoT in Manufacturing

SAP IoT in Manufacturing SAP IoT The manufacturing industry is undergoing a digital transformation powered by the Internet of Things (IoT). SAP is providing solutions to help manufacturers fully leverage IoT to enhance efficiency. By connecting machines and assets to enable real-time data flows, SAP IoT empowers manufacturers to optimize processes, predict maintenance needs, and make data-driven decisions. This holistic approach goes beyond fine-tuning individual processes to understand the entire production lifecycle. The result is increased overall efficiency, agility to respond to evolving situations, sustainability improvements, and assurance of quality standards. Due to the complexity of connecting real-world situations and manufacturing assets to a digital landscape, there are many challenges for SAP IoT specialists to overcome. This week IgniteSAP takes a look at some of those challenges and best practices for IoT integrations that bring optimum value for customers. Challenges