Smart city: San Diego upgrades streetlights with real-time sensors - TomoNews

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The streetlights will be connected to form an Internet of Things (IoT) network, meaning a network of connected objects that collect and exchange data using sensors. The streetlights can measure air quality, locate vacant parking spaces, monitor traffic flow of vehicles and pedestrians, as well as detect gun violence.

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At Chatsworth Products (CPI), it is our mission to address today’s critical IT infrastructure needs with products and services that protect your ever-growing investment in information and communication technology. We act as your business partner and are uniquely prepared to respond to your specific requirements with global availability and rapid product customization that will give you a competitive advantage. At CPI, our passion works for you.

OTHER ARTICLES

Nokia adds 5G to worldwide IoT network, lets carriers test new sensors

Article | March 17, 2020

Nokia may be best known for cellular phones, but in recent years the Finnish company has focused on networking hardware — the radios and infrastructure that connect cellular devices to the internet. Today, Nokia announced that it’s augmenting its Worldwide Internet of Things Network Grid (WING) with new 5G capabilities, enabling cellular carriers to offer global-scale 5G IoT services to customers without building out their own networks. While that’s a lot of jargon to absorb at once, the gist is that carriers like AT&T and Verizon want to offer business customers the ability to connect small IoT sensors to the internet but don’t necessarily want to spend the money to build the cellular infrastructure the sensors need to communicate. So Nokia offers WING as a global IoT infrastructure, partnering with carriers to sell access on a pay-as-you-go basis.

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Which IoT Applications will Benefit Most from Edge Computing?

Article | March 17, 2020

Edge computing refers to information being processed at the edge of the network, rather than being sent to a central cloud server. The benefits of edge computing include reduced latency, reduced costs, increased security and increased business efficiency. Transferring data from the edge of a network takes time, particularly if the data is being collected in a remote location. While the transfer may usually take less than a second, glitches in the network or an unreliable connection may increase the time required. For some IoT applications, for example, self-driving cars, even a second may be too long. Imagine a security camera that’s monitoring an empty hallway. There’s no need to send hours of large video files of an empty hallway to a cloud server (where you will need to pay to store them). With edge computing, the video could be sent to the cloud only if there is movement detected in the hallway.

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How Will the Emergence of 5G Affect Federated Learning?

Article | March 17, 2020

As development teams race to build out AI tools, it is becoming increasingly common to train algorithms on edge devices. Federated learning, a subset of distributed machine learning, is a relatively new approach that allows companies to improve their AI tools without explicitly accessing raw user data. Conceived by Google in 2017, federated learning is a decentralized learning model through which algorithms are trained on edge devices. In regard to Google’s “on-device machine learning” approach, the search giant pushed their predictive text algorithm to Android devices, aggregated the data and sent a summary of the new knowledge back to a central server. To protect the integrity of the user data, this data was either delivered via homomorphic encryption or differential privacy, which is the practice of adding noise to the data in order to obfuscate the results.

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For your industrial IoT deployment: A four-step guide to selecting a wireless technology

Article | March 17, 2020

Most everyone agrees that wireless technology is a key pillar of the Internet of Things. Exactly which wireless technology is a different story. Opinions may vary from enterprises, to service providers or vendors, but one size does not fit all. The best wireless technology is the one that addresses the requirements for your industrial IoT use case. How could an OT manager make sure he or she will select the most appropriate technology for his/her use case(s)? To help with the decision process, here’s a step-by-step guide defining selection criteria for wireless technology.

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Spotlight

Chatsworth Products

At Chatsworth Products (CPI), it is our mission to address today’s critical IT infrastructure needs with products and services that protect your ever-growing investment in information and communication technology. We act as your business partner and are uniquely prepared to respond to your specific requirements with global availability and rapid product customization that will give you a competitive advantage. At CPI, our passion works for you.

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