Applied Technology Review : News

GIS helps the users to make better decisions by identifying patterns, recognizing trends, monitoring changes, and responding to events by allowing them to easily visualize various forms of data. Many people are new to the concept of GIS and don't know where to begin. Like the majority of the population, people undoubtedly have done what most people do when they're confused with a topic and performed a quick Google search. That Google search most likely brings them to a Wikipedia article filled with technical language, industrial jargon, and maybe even a few complex equations. But to learn everything about GIS, it is vital to remember that GIS is founded on the science of geography to fully comprehend what it is and how it may be used. How is GIS Used? The process of eliminating dirt and other particles from water is known as coagulation. Chemicals with a positive charge, such as alum, are added to the water to counteract the negative charge caused by dirt and other particles. The particles and chemicals bind together to produce floc, a loosely clumped mass of particles. Access to information allows for better decision-making, and GIS gives the data required to make well-informed judgments in a simple format to comprehend. The municipal decision-making process gets smarter with GIS because it provides users the spatial analysis, they need to make appropriate judgments. GIS software can assist businesses, and their team makes better decisions, whether your project is municipal or concentrates on a different region. Uses of GIS Urban Planning Data from GIS makes urban planning more accessible than ever before. It enables users to examine urban areas for planning, expansion, and development while considering crucial factors that must be considered to become successful. Transportation Optimization Problems related to public transit are common in cities. People may have experienced some of these challenges if they live in a city with public transport. GIS is a tool that is often used to control transportation difficulties. Transport companies can develop and optimize routes and rails utilizing environmental and current data. Natural Resource Management Apart from doing the best to conserve the environment, it's also important to be mindful of its natural resources and manage them effectively, which GIS data may help accomplish. GIS mapping can provide information related to the distribution of water and other significant natural resource areas. See Also:  TOP 10 BIOTECH STARTUPS ...Read more

Piaggio’s hardware-software modules provide uncompromised safety by offering reliable monitoring in all lighting and environmental circumstances. Piaggio Fast Forward (PFF), a robotics firm based in Boston and a leader in smart following technology, has created new sensor technology that may be used in consumer and corporate robots, as well as scooters and motorcycles. PFF, which was founded in 2015 by the Piaggio Group, had previously focused on advancing innovation in smart following technology and smart behavior implementation in robots and machines. Last year the company made a strategic decision to begin developing a custom radar sensor module for use first in Piaggio Group motorcycles and scooters, intending to license the technology to other companies eventually. “PFF is creating advanced technology products for robots and motorcycles that detect and measure objects in our surroundings to provide the information we need for mapping, object detection, and control, regardless of lighting, weather and other environmental factors. We have chosen to develop our sensing applications with Vayyar’s 4D imaging radar technology. We are excited to work with such a professional, passionate team, to develop innovative new solutions that provide our customers with a better product experience.” Greg Lynn, CEO, Piaggio Fast Forward. PFF’s hardware-software modules provide uncompromised safety by offering reliable monitoring in all lighting and environmental circumstances. Vayyar Imaging was awarded a supply contract by PFF for the Radar-on-Chip modules, marking the industry’s first 4D imaging radar-based motorcycle safety platform deployment. PFF conceived, produced, and provided the entire sensor package for mass production in Piaggio Group motorbikes Advanced Rider Assistance Systems (ARAS). ARAS applications are at the forefront of the fight to avoid motorcycle collisions and safeguard riders. ARAS technology addresses the stringent technological requirements of typical driver aid functions while also solving motorcycle-specific issues such as size limits and seamless vehicle mobility at high-tilt degrees. “We are very excited to partner with PFF, who are at the forefront of sensor technology, both in terms of harmonization with rider experience on two- and three-wheeled products, as well as application in their innovative robots. Motorcycle riders are among the most vulnerable road users, and this is a big step forward in reducing their risk of collision,” says Ilan Hayat, Director of Business Development at Vayyar Imaging. “Regardless of vehicle type, rider safety should not be compromised, and by partnering with PFF we are thrilled to deliver an automotive standard of safety to motorcycles”, added Hayat. The PFF modules use a Vayyars mmWave 4D imaging Radar-on-Chip (RoC) sensor, which enables several ARAS features like Blind Spot Detection (BSD), Lane Change Assist (LCA), and Forward Collision Warning (FCW) with a single sensor with a range of over 100m and an ultra-wide field-of-view. PFF robots using radar technology are planned to hit the market by the end of 2021, with Piaggio Group motorcycles featuring the PFF sensor module following in 2022. Vayyar 4D imaging radar technology, which is used in both PFF robots and PFF sensing modules developed for the motorcycle industry, has a large Multiple Input Multiple Output (MIMO) array that allows for ultra-high resolution point cloud imaging for holistic monitoring of a robot’s and vehicle’s surroundings. This high-performance sensor uses sophisticated single-chip 4D imaging radar technology to detect and track multiple targets with an ultra-wide field of view (both in azimuth and elevation) and no dead zones. It was designed with a tiny form factor in mind to meet the particular problems of motorbike and robotics design. ...Read more

GIS experts map out features related to the earth's surface and provide guidance for natural resource management. Geographic Information Science (GIS) is a valuable tool for understanding the world and addressing complicated problems. Whether transportation businesses are optimizing logistics or manufacturers are monitoring equipment locations using Internet of Things sensors, GIS continues to innovate. Geographic Information Science and Technology (GIST) is also essential in scientific research, having a wide range of applications in earth science for spatial data and visualizations. Experts who gather, analyze, alter, and interpret geographic data using these techniques can reveal unique insights about the world and even other planets. It's easy to see why geospatial reasoning is becoming increasingly important in expanding the knowledge of earth science and exploring new research areas when people look at how GIST is used in many fields. GIS IN GEOLOGY Geologists study the structure, composition, and evolution of the planet. But scientists may not always be able to visit a region for field observation. They can utilize electromagnetic radiation to acquire detailed information throughout the world using remote sensing in geology. For geologists, one of the most common GIS uses is to interpret and visualize data from remote sensors. Experts in geographic information systems (GIS) map out aspects of the earth's surface and advise natural resource management. The accessibility of open data portals implies that geologists worldwide have access to a wealth of helpful information. GIS IN METEOROLOGY When meteorologists map and model weather and climate using GIS, they gain vital insights into the mechanisms at work in the atmosphere. Scientists study the way weather systems travel through time and locate the sites of weather events. Using GIS weather data to determine relevant patterns and trends leads to more accurate forecasting. GIS IN OCEANOGRAPHY The use of geographic information systems (GIS) in oceanography centers on supporting researchers by providing them with broad perspectives on the underwater world. Satellite oceanography, which collects data from visible waveband sensors, microwave sensors, and radar, offers applications for enterprises, government organizations, and scientists. GIS IN ASTRONOMY Scientists have used GIS to map the universe from space to learn more about the world and study other planets and elements in the solar system. The use of geographic information systems (GIS) in astronomy allows scientists to learn about celestial bodies' mineral composition, topography, and tectonic movement. See Also:  T op 10 Field Service Solution Companies ...Read more