You know, if I were a single man, I might ask that mummy out. That's a good-looking mummy.
You know, if I were a single man, I might ask that mummy out. That's a good-looking mummy.
My advice to you is get married; if you find a good wife you'll be happy; if not, you'll become a philosopher.
My philosphy; live today. Do not leave undone things you really want to do, even if they seem a bad idea.
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Physical infrastructure is not the only driver of your ecommerce shipment anymore; data is an equally powerful navigator overhauling the logistics game. The rapid adoption of IoT technology is leading to an exponential surge in data. Concurrently, AI is pushing boundaries to process this vast influx of data, powering advanced analytics systems. Logistics, as we know, comprises various stakeholders along the supply chain, such as manufacturers, storage units, distributors, freight forwarders, and 3PL companies, among different third-party vendors. In today’s modern era, automated systems are required to comprehend the data-rich landscape and optimize the movement of shipments across the supply chain. IoT and analytics deliver exactly that, and the market sentiment is bullish. As per Allied Market Research, the global market value of IoT in transportation could break all records and reach $495 billion by 2030. In this article, we’ll highlight four noteworthy areas that are implementing IoT and analytics into logistics.
It seems like every day lately, router manufacturers are coming up with some new buzzword or marketing term to sell you on why their networking appliance is better than the rest, without actually having the real performance to back it up. That’s why we’ve teamed up with Gadget Review to extensively test and review the best wireless routers on shelves today, in order to give you a detailed breakdown of everything you need to know about the best wireless routers of 2017. How we choose and why you should buys To create this year’s roundup of the best routers on the market, we’ve run dozens of newer and some not-so-new models through the ringer to find the best of the best. Using a 1GB symmetrical fiber optic line, we pushed our top picks to the absolute limits of what routers could do, testing on a variety of devices including desktops, laptops, smartphones and tablets. See also: Are prices driving away smart home tech consumers? To make this list, the routers we tested needed to have a minimum wireless bandwidth rating of 1900AC, have at least four ethernet ports on the back, one USB port for media server options, and be able to transmit on both the 2.4GHz and 5GHz spectrum. All the routers here hit the spec of transmitting at 250Mbps or more on 5GHz, and were able to maintain a rate of 300Mbps over a hard-wired connection. Features like software and configuration options were also thoroughly tested, in order to find the best mix of performance, reliability, and price in the best wireless routers of 2023.
The rapid adoption of Internet-of-Things (IoT) devices globally and across every sector is changing how we search and share information. IoT devices go beyond just personal technology like smartphones and computers. They include smart speakers, inventory trackers, and even refrigerators equipped with modern software, sensors, and processing capabilities that connect and exchange data. In essence, these IoT devices form an intricate network of connected objects. They constantly share, collect, and analyze data while simultaneously performing the task at hand. With the rise of new search queries and results, SEO is pivotal for IoT businesses. They seek an edge in an industry where users don’t just search on phones but also on IoT devices
Summary : Like everything else, the new generation elevators and escalators are becoming smarter and more well-connected. Let’s see how IoT lifts up the traditional elevator system, making it faster, safer, and more personalized. Rapid urbanization and the rising world population are pushing realty developers to go higher! With city skylines changing dramatically, efficient vertical mobility has become a prerequisite. Technological innovations have made the cityscapes taller and grander, which means we need smarter, faster, and safer elevators and escalators. Often termed as urban workhorses, elevators and escalators have played a critical role in vertical development essential to accommodate rapid urbanization. Since its introduction in the late 1800s, elevators have evolved over the years. From rope cables to automated experience, elevator designs have gone notches higher with IoT technologies. How is the IoT Paving Way for Smart Elevators and Escalators? Elevators and escalators are becoming faster, more efficient, and safer – Thanks to IoT technologies. According to a report published in MarketWatch, the global smart elevator market is expected to grow at a CAGR of 6.81 percent by 2028, reaching a value of $14000 million. Smart elevators combine advanced IoT-enabled sensors and software to create a seamless interconnected system elevating its efficiency and safety. IoT-powered smart elevators can remotely monitor key performance indicators and make real-time maintenance decisions. Smart elevators and escalators can remotely monitor conditions such as safety circuits, load weighing, door cycles and trips, traffic trends, and waiting periods. Based on this data, technicians can keep track of wear and tear along with anomalies in friction and noise to optimize preventive maintenance schedules. Besides, real-time data provides IoT diagnostic insights enabling you to detect a problem and resolve them before it could cause any casualties. Here are some of the benefits of IoT-empowered smart elevators and escalators:
The increasing sophistication and pervasiveness of cyber threats keep businesses on their toes — 493.33 million attacks were reported in 2022. It’s no surprise that organizations constantly seek new ways to strengthen their security systems. Integrating artificial intelligence (AI) into threat detection systems is one of the most promising approaches for advancing security measures because it employs a proactive approach to threat detection and provides a level of sophistication and accuracy previously unachievable. Let’s explore how AI can be integrated to make systems more secure and capable of detecting highly sophisticated attacks. AI Integration With User and Entity Behavior Analytics (UEBA) User and Entity Behavior Analytics (UEBA) is a formidable force in security analytics, playing a critical role in threat detection. Through machine learning algorithms, UEBA excels at identifying abnormal or irregular behavior within any network, fortifying defenses against potential threats with an additional layer of protection. It establishes baseline behavior patterns for users and entities, equipping the system to recognize deviations from the norm that may signify a potential security breach. By meticulously analyzing diverse data points, it flags suspicious or unconventional activities that demand attention. In the past, UEBA has been an effective threat detection strategy. However, with the relentless progress of AI technology, UEBA’s capabilities have been exponentially expanded. For one, AI-powered systems possess the prowess to process and analyze massive volumes of data with unrivaled efficiency. This is ushering in an era of heightened accuracy and swifter detection of potential threats. By seamlessly integrating AI algorithms into UEBA systems, organizations stand to reap a wealth of benefits; enhanced detection capabilities, bolstered accuracy, and accelerated response times are a few of them. Furthermore, the adaptive nature of AI, continuously learning from historical data and adapting to new information, will ensure that the system remains ever-vigilant and proficient in the face of ever-evolving threats. This dynamic synergy between UEBA and AI guarantees an up-to-date and effective defense mechanism, fortifying organizations against emerging threats.
The proliferation of Internet of Things (IoT) devices has revolutionized the way we interact with technology. From smart homes to industrial automation, IoT has transformed various sectors, offering convenience, efficiency, and connectivity. However, this widespread adoption of IoT also brings forth significant cybersecurity challenges. In this article, we delve into the impact of attack surface on the intersection of cybersecurity and IoT, exploring the risks, vulnerabilities, and strategies to mitigate them. Understanding Attack Surface in IoT Space Attack surface refers to the sum of all possible entry points and vulnerabilities that can be exploited by attackers. In the context of IoT, it encompasses the various endpoints, communication channels, protocols, and interfaces that IoT devices utilize. With the increasing number and diversity of IoT devices, the attack surface expands, creating more opportunities for cybercriminals to infiltrate networks and compromise sensitive information. Risks and Vulnerabilities The expanding attack surface in IoT devices amplifies the risks and vulnerabilities associated with their use. Poorly designed or outdated firmware, insecure communication protocols, weak authentication mechanisms, and insufficient security configurations all contribute to the vulnerability of IoT devices. These vulnerabilities can be exploited to gain unauthorized access, launch distributed denial-of-service (DDoS) attacks, intercept sensitive data, or manipulate connected systems. Real-world examples highlight the impact of attack surface on IoT security. The Mirai botnet, for instance, compromised hundreds of thousands of IoT devices by exploiting their weak security configurations. These compromised devices were then used to launch large-scale DDoS attacks, causing widespread disruption. This incident underscores the importance of addressing the expanding attack surface in IoT devices to prevent such incidents in the future.
As the global population continues to grow, and more people move to urban centers in search of better opportunities, city planners and authorities must turn to IoT smart technology to address the issues of large-scale urbanization. From public transport to waste management. Security systems to lighting and heating. Ensuring that the residents of today’s sprawling population centers can benefit from city life is a challenging and unforgiving task. That is without the aid of smart technology. The rise of the Internet of Things has revolutionized how local authorities manage, improve upon and maintain public infrastructure. Smart technology like this continues to lead the development of informed city management systems and automated essential public services. This article seeks to understand IoT’s changing role in the development of smart cities and how such systems are used to solve modern problems. IoT Systems and Essential Infrastructure The idea to automate and streamline essential city management processes such as waste disposal services, public transport and security systems with the aid of intelligent sensors and analytics isn’t an entirely new concept. However, modern IoT devices have taken the idea of smart technology to new and exciting extremes. Waste Disposal in Smart Cities Perhaps the best example of this is in the way that modern smart cities handle large-scale waste disposal. With 56% of the world’s population now living and working in city centers, and urban populations projected to double by 2050, officials must find a way to modernize waste management and disposal services to ensure that residents are not overwhelmed by refuse.
Morning, noon and night, it’s there, whirring and whirling around. It’s so industrious I feel simultaneously scared and shamed In domestic news, an issue has arisen with the robot vacuum cleaner. Our noisy old one annoyed me so much, bashing repeatedly into the skirting and swallowing rug tassels in confusion, that I stamped violently on its off button every time I caught it trying to do its job. The new one is less relentlessly stupid, but just as loud, and since my husband programmed it, it appears to always be on. It lurches out at 10am and is still roaring around when I come downstairs, hours later. After a brief hiatus, it re-emerges in the afternoon. It’s so noisily industrious, I feel simultaneously enervated and shamed by its productivity. Let me stare at the internet in peace, robot! Continue reading... Read more.....
The tech giant’s flawed business model for its popular smart devices has cost the company a fortune and thousands of jobs Intrigued by an Ars Technica post about Amazon’s Alexa that suggested all was not well in the tech company’s division that looks after its smart home devices, I went rooting in a drawer where the Echo Dot I bought years ago had been gathering dust. Having found it, and set it up to join the upgraded wifi network that hadn’t existed when I first got it, I asked it a question: “Alexa, why are you such a loss-maker?” To which she calmly replied: “This might answer your question: mustard gas, also known as Lost, is manufactured by the United States.” At which point, I solemnly thanked her, pulled the power cable and returned her to the drawer, where she will continue to gather dust until I can think of an ecologically responsible way of recycling her. I bought the device on 5 December 2016 (on the basis that one shouldn’t pontificate on kit that one hasn’t purchased oneself) and wrote about it in January 2017. Rereading that column now reveals that I thought the device’s arrival represented a significant moment in the evolution of surveillance capitalism. Why? Because its target market was the home, which was, as the veteran tech analyst Ben Thompson observed at the time, “the one place in the entire world where smartphones were not necessarily the most convenient device, or touch the easiest input method: more often than not your smartphone is charging and talking to a device doesn’t carry the social baggage it might elsewhere”. Continue reading... Read more.....
The development of many industries, notably the manufacturing industry, is significantly influenced by technological improvement, especially the internet of things which has led to significant advancements in the manufacturing industries. Technological revolutions have been frequent in the manufacturing industry, with the development of equipment to lessen the workload of humans and eliminate the need for manual labor while boosting efficiency. Artificial intelligence (AI), the Internet of Things (IoT), and big data analytics are all technological innovations in the industrial sector. The IoT has been very beneficial, especially for industries that need rapid development and high-quality products. This piece will examine the Internet of Things applications in the industrial sector. Let’s begin with defining IoT to have a better understanding. What is Inter of Things in the manufacturing sector? The Internet of Things is a network that connects gadgets such as computers and electrical software devices with sensors and other technologies built to exchange data online. In line with the expanding digitization of numerous operations across many industries, the IoT is swiftly increasing its significance in manufacturing. Therefore, implementing IoT might increase productivity to new heights, supporting industrial sectors in achieving their financial goals and preserving their competitiveness in the market. IoT applications in the industrial sector? IoT is being used by manufacturing facilities in a variety of methods and departments to streamline the production process. Technology aids in managing warehouses, tracking development cycles, and keeping an eye on stocks. Let’s examine a few areas in the industrial sector where IoT is being utilized to boost production and efficiency.
Travel is evolving, thanks to new and more sophisticated technologies. These breakthroughs make it easier to both travel and stay connected during that travel. With lower prices, streamlined traveling experiences, greater convenience for travelers, and higher productivity, everyone with travel plans has something to enjoy. But how exactly did we get here, and where does the world of interconnected travel technology go from here? Technology and Travel Whether you’re going to a different country for business or as part of a destination wedding, it pays to know the best-connected tech for the experience. Certain travel companies and related institutions are integrating more technologies into their products and services. This allows you to take advantage of these opportunities to save money, save time and ultimately get a better overall experience. Some technologies will enable you to make your travel more comfortable and more convenient, even when you’re a mere passenger on an airplane or a bus. What types of technology are changing the way we travel? Bookings and Information If you grew up before the 2000s, you probably had at least one experience with a real travel agent. Your travel agent was a person whose entire job was to help you book travel accommodations. These days, the role of the travel agent is practically obsolete. Instead, you can find information and book travel arrangements online in a matter of minutes. While this technology isn’t necessarily new, it has caused a sub-industry to almost collapse — and it’s changed how we think about travel. Chatbots and Customer Service Are you having trouble finalizing your ticket purchases? Or are you not sure what to do next? Don’t worry – someone can help you. But that “someone” is probably an automated chatbot. Love it or hate it, most travel companies have integrated sophisticated chatbots into their customer service strategy, enabling them to serve more people in less time while minimizing costs and keeping human staff to a minimum. This trend is likely to continue, with even more forms of automated customer service in the works.
Prologue The process of progressing further has taken a steep ascent as there is numerous technology at our disposal. These technologies have helped us make countless contributions. Moreover, these advancements are the foundation for several more innovations yet to be discovered by the industry. The statistics also support the future accession of emerging technologies. The rate of growth of 104% can be seen by the year 2023, according to Statista. IoT and Blockchain Technology are the two leading advanced technologies that will help these advancements. Although there is another technology that tech-enthusiasts are trying to incorporate with these two. We can say collectively they will be known as ‘The Big Three.’ In early October, Facebook changed its company logo and gave itself a new fresh face with the name ‘Meta.’ They also aim to develop further the Metaverse, which has given a ray of light to the subject. Crucial Aspects of Metaverse, IoT, and Blockchain Here we will discuss the crucial aspects of Metaverse and consider the significant importance of Blockchain and IoT for developing Metaverse in great detail. Moreover, we will discover Blockchain Technology’s and IoT’s benefits in developing Metaverse as a secure, stable, and reliable platform. A platform for industries looking to introduce practical characteristics into their business practices.
As our world becomes increasingly connected, IoT devices are emerging seemingly everywhere. With the total number of IoT connections projected to reach 83 billion by 2024, it’s time to start talking about technological changes that are necessary to accommodate continued IoT scalability and growth. Currently, most IoT devices require stable and constant internet connections to sync their data to the cloud. The issue is that this level of connectivity is not always viable, and it comes with cyber risks. Hardware failures and bandwidth overloads happen, and they have the potential to wreak havoc on continuously connected devices. For IoT to have continued scalability and evolve, taking its place in the digital mainstream — it’s essential to rethink the way devices are designed and secured “The pace of innovation has generated requirements for millions of devices, most network (primarily wireless) connected in some capacity,” writes Earl Perkins, a VP at Gartner. “Unfortunately, most of these devices have little or no protection at the software and infrastructure levels.” Engineering intermittent connectivity into IoT devices is a technical solution that is bound to drive increased adoption. Here’s how it can solve some of the current challenges IoT devices face. Better power management for Continued IoT Scalability While the technology is impressive, IoT devices are often hobbled by something as simple as a limited power supply. Constantly connected IoT devices have to be connected to a stable power source. As a result, they aren’t the most practical solution to use over long distances or in hostile conditions.
Imagine losing $1.5 million to fraud — that is, in fact, what an average financial fraud costs a company. In addition, the constant threat of vulnerabilities in cybersecurity is being exploited by unscrupulous hackers, which is terrifying not just for individuals but also for businesses. For companies to function smoothly without the risk of potential fraud, a robust, pre-emptive, and future-ready combat system is non-negotiable. Changing Fraud Detection With the dawn of the digital era, things have changed rapidly. But, unfortunately, while technological advancements have transformed the world around us in more ways than one, the other side of the coin is becoming uglier by the day. For example, business-related frauds have increased alarmingly, but the nature of these cases has demonstrated how smart technology can be susceptible to large-scale cyberattacks. The IoT Connected World As the Internet of Things (IoT) becomes a reality, we are now living in a more connected and integrated world than ever before. While not every industry has embraced IoT wholeheartedly, most have and are now grappling with various risks associated with potential fraud. In a bid to rapidly achieve their digital transformation goals, the security aspect has been slightly ignored by many businesses. While the IoT infrastructure offers a host of convenience, collaboration, and productivity benefits, it poses grave security threats, including direct attacks on IoT devices and IoT devices–generated data privacy issues. Even the most secure of IoT devices, networks, and systems are susceptible to malicious activity. Here are some examples of looming cybersecurity threats.
Our phones can now do a lot of things we never imagined. Here’s a list of some fun, new gadgets, all of which are smartphone-controlled. With our smartphones, we can check our crypto wallets, utilize social media, take images that are as good as those taken by professional cameras, and so much more. Aside from that, there’s a lot more we can accomplish with them. In addition, we can ride and control robots, as well as cool devices, to brighten our day or even gather data for research. Such devices always increase the amount of fun you can have with a smartphone. That’s why we’ve compiled a list of the finest gadgets that are smartphone-controlled and that will wow you. 1. Deeper PRO+ Smart Sonar Castable and Portable WiFi Fish Finder Simply cast out your Deeper Smart Sonar PRO+ to obtain fast depth and water temperature information. When you recover your Deeper PRO+, it recognizes fish-friendly features including humps, depressions, and marginal shelf. You’ll note how diverse the greenery is. Deeper water also aids in determining whether the bottom is hard or mushy and whether it contains gravel or silt. You can even find the fish using the Deeper PRO+’s sonar. As a result, if you’ve baited a place, you can monitor whether the fish are staying put or moving on. With Deeper PRO Plus, you’ll have all the information you need to capture the perfect fish you’ve always wanted.
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