Applied Technology Review : News

AI continues to foster the new collaborations needed to build the groundwork for the visions and applications. About 900 Earth-observing satellites presently peer down at us from space. Simultaneously, an evolving network of ground-based sensor technologies tracks water movement, the sounds of ecosystems, and the chemicals that permeate soils and the atmosphere above it. This latest generation of sensing technologies is attended by sophisticated physical models, from climate simulators to continental-scale hydrologic models. These expansive novel data streams and physical models present uncharted opportunities to leverage AI to address the requirements of a planet on life support. Read on to know more. In sustainability management and decision-making, use cases of AI have been limited. Most work has depended on standard supervised learning methods to evaluate single dimensions of land use or climate risk-focused at scales that extend beyond those where decisions are made. Although the use of indicators allows remotely sensed data streams to serve as proxies for factors other than land leverage and climate, to the knowledge, very few studies have utilized mixed data streams, especially high-resolution human-centered data, due to the vast mismatches between spatial and temporal character. Thus, there is an immediate requirement to develop methods that can learn from diverse data streams and transfer that learning to community-based decision-making . Using AI as a decision tool to guide sustainability efforts has also lagged behind uses in other areas. A substantial hindrance to the development of sustainable societies arises from the complexity of socio-economic-environmental systems. This complexity can surpass the potential for a human to understand all interactions and causations. A common method to make sense of this complexity is to develop indexes or collections of indicators. Although useful as a metric for evaluation, when applied as a tactic for decision making, a strong dependence on indices can lead to unintended impacts because a static index cannot fully account for uncertainty connected with human behavior and community-driven priorities. Most important, indexes can be influenced by embedded social and cultural preferences and local political action. To address these challenges needs an intelligent system, human or machine, that can deeply understand multi-dimensional issues and solutions in complex socio-economic-environmental systems. ...Read more

GIS can be used to support a city’s utilities like water management and sanitation and make cities smarter. Some or all of these services are available in a typical city. To make the city smarter, its utilities must be supplemented by real-time and near-real-time data and analytics that can provide decision-making options to support the administration of the utilities' facilities. Geospatial systems are already a feature of AM/FM systems, but they may be utilized to enable real-time monitoring and control of utilities and services by integrating other data sources and services, in addition to mapping the city and its network of on-ground and underground facilities and assets. Some of the common use cases of GIS are: Water supply A city's water management goal is to provide a reliable supply of high-quality drinkable water with little waste. Installation of sensors to monitor water usage, water flow and water loss in real-time is one of the approaches employed. Water usage is optimized, and leaks are addressed using systems. The city of Long Beach, California, employs intelligent water meters to detect unlawful water consumption and optimize overall usage - customers can save up to 80 percent on their water bills. Urban mobility Traffic slowdowns, pollution, and inefficiency have resulted from cities' fast growth and the popularity of privately owned vehicles. Intelligent and multifunctional public transportation systems and smart traffic signals, and pollution monitors are required in today's public transportation systems. Los Angeles employs magnetic sensors and video cameras to monitor traffic and synchronize 4,500 automatic lights, resulting in a 16 percent reduction in traffic congestion. Sanitation Sewage water and solid waste management are the two most important aspects of sanitation. Many communities are implementing a decentralized wastewater treatment system to ensure that water can be reused for non-potable applications, thereby conserving a valuable resource. Monitoring the effluent quality where treated wastewater flows into water bodies is vital to guarantee that the effluent is safe. IoT sensors are utilized in Porto, Portugal, to track the load in dumpsters and schedule trucks to replace loaded dumpsters with empty ones on a regular basis. ...Read more

Wearable technology is booming in professional sports because it has demonstrated its worth by assisting professional athletes in pursuing success. FREMONT, CA: Wearable technology is altering people's perceptions of sport and fitness. There's a wearable device for everyone, from Fitbits to Oura Rings, Sensoria smart socks to Whoop bands. It's no wonder that wearable technology is becoming increasingly popular in professional sports, where marginal advantages are frequently the difference separating first and last place. The never-ending demand for data, most of it generated by wearable technology , has even altered the fundamentals of many sports today. Thankfully, wearable technology benefits more than just elite athletes. They've assisted people in quantifying their own bodies and providing fresh insights about sleeping habits, recovery times, heart rates, and calorie intake. Wearable devices are now becoming an essential part of many people's daily lives, providing motivation when they need it most. Wearables have a bright and exciting future ahead of them. People may expect wearables to get smaller as Moore's law continues to do what it does finest, up to the point where the interaction between technologies and humans is nearly invisible or ingrained. There are a number of challenges to solve, as with any technology, particularly in terms of data ownership and privacy. Who owns the information that the body generates? How is it kept? And who is in charge of keeping it safe? These are some of the questions that the business is attempting to solve. Wearable technology in professional sport isn't a new concept. It has a long history of using various sensors and device kinds to identify marginal benefits and build world-beaters. Professional sports use a variety of sensor types, including heart rate monitors, GPS units, sleep trackers, and inertial tracker Check Out : Agri Business Review ...Read more