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mostlysignssomeportents · 2 years

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VW wouldn't locate kidnapped child because his mother didn't pay for find-my-car subscription

The masked car-thieves who stole a Volkswagen SUV in Lake County, IL didn’t know that there was a two-year-old child in the back seat — but that’s no excuse. A violent car-theft has the potential to hurt or kill people, after all.

If you’d like an essay-formatted version of this post to read or share, here’s a link to it on pluralistic.net, my surveillance-free, ad-free, tracker-free blog:

https://pluralistic.net/2023/02/28/kinderwagen/#worst-timeline

Likewise, the VW execs who decided to nonconsensually track the location of every driver and sell that data to shady brokers — but to deny car owners access to that data unless they paid for a “find my car” subscription — didn’t foresee that their cheap, bumbling subcontractors would refuse the local sheriff’s pleas to locate the car with the kidnapped toddler.

And yet, here we are. Like most (all?) major car makers, Volkswagen has filled its vehicles with surveillance gear, and has a hot side-hustle as a funnel for the data-brokerage industry.

After the masked man jumped out of a stolen BMW and leapt into the VW SUV to steal it, the child’s mother — who had been occupied bringing her other child inside her home — tried to save her two year old, who was still in the back seat. The thief “battered” her and drove off. She called 911.

The local sheriff called Volkswagen and begged them to track the car. VW refused, citing the fact that the mother had not paid for the $150 find-my-car subscription after the free trial period expired. Eventually, VW relented and called back with the location data — but not until after the stolen car had been found and the child had been retrieved.

Now that this idiotic story is in the news, VW is appropriately contrite. An anonymous company spokesman blamed the incident on “a serious breach” of company policy and threw their subcontractor under the (micro)bus, blaming it on them.

This is truly the worst of all worlds: Volkswagen is a company that has internal capacity to build innovative IT systems. Once upon a time, they had the in-house tech talent to build the “cheat device” behind Dieselgate, the means by which they turned millions of diesel vehicles into rolling gas-chambers, emitting lethal quantities of NOX.

https://en.wikipedia.org/wiki/Volkswagen_emissions_scandal

But on the other hand, VW doesn’t have the internal capacity to operate Car-Net, it’s unimaginatively-named, $150/year location surveillance system. That gets subbed out to a contractor who can’t be relied on to locate a literal kidnapped child.

The IT adventures that car companies get up to give farce a bad name. Ferraris have “anti-tampering” kill-switches that immobilize cars if they suspect a third-party mechanic is working on them. When one of these tripped during a child-seat installation in an underground parking garage, the $500k car locked its transmission and refused to unlock it — and the car was so far underground that its cellular modem couldn’t receive the unlock code, permanently stranding it:

https://pluralistic.net/2020/10/15/expect-the-unexpected/#drm

BMW, meanwhile, is eagerly building out “innovations” like subscription steering-wheel heaters:

https://pluralistic.net/2020/07/02/big-river/#beemers

Big Car has loaded our rides up with so much surveillance gear that they were able to run scare ads opposing Massachusetts’s Right to Repair ballot initiative, warning Bay Staters that if third parties could access the data in their cars, it would lead to their literal murders:

https://pluralistic.net/2020/09/03/rip-david-graeber/#rolling-surveillance-platforms

In short: the automotive sector has filled our cars with surveillance gear, but that data is only reliably available to commercial data-brokers and hackers who breach Big Cars’ massive data repositories. Big Car has the IT capacity to fill our cars with cheat devices — but not the capacity to operate an efficient surveillance system to use in real emergencies. Big Car says that giving you control over your car will result in your murder — but when a child’s life is on the line, they can’t give you access to your own car’s location.

This Thu (Mar 2) I’ll be in Brussels for Antitrust, Regulation and the Political Economy, along with a who’s-who of European and US trustbusters. It’s livestreamed, and both in-person and virtual attendance are free. On Fri (Mar 3), I’ll be in Graz for the Elevate Festival.

Image: Cryteria (modified) https://commons.wikimedia.org/wiki/File:HAL9000.svg

CC BY 3.0 https://creativecommons.org/licenses/by/3.0/deed.en

—

Upsilon Andromedae (modified) https://www.flickr.com/photos/upsand/212946929/

CC BY 2.0 https://creativecommons.org/licenses/by/2.0/

[Image ID: A blue vintage VW beetle speeds down a highway; a crying baby is pressed against the back driver's-side window. In the sky overhead is the red glaring eye of HAL 9000 from 2001: A Space Odyssey, emblazoned with the VW logo. The eye is projecting a beam of red light that has enveloped the car.]

#pluralistic #worst timeline #parenting #car-net #automotive #stranger danger #commercial surveillance #surveillance #volkswagen #vw

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commodorez · 8 months

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Do you have a favourite rotary telephone?

Excellent question!

Yes, I have a favorite:

The Northern Electric Pyramid phone from about 1935. I had this on my desk at my old job, tied into the telephone system. Its distinctive ring made it really easy to discern if I was the one being called instead of my coworkers. The chrome dial and the area code indicate that this unit came from Canada.

Coming in second place is my Northern Telecom 500-style set with official Commodore branding -- also from Canada. These were sold with VICMODEMs in a special bundle exclusively in the Canadian market. The VICMODEM requires that you detach the cord from the handset, plug it directly into the modem, then dial for the computer.

Problem is that you can't do that here, because the handset cord is permanently attached! Solution? The little white adapter box called the VIC 1605. Very hard to find, but I found one.

Coming in third place would be the Contempra from Northern Electric/Telecom from 1967 (why do these keep being Canadian?). Beautiful colors, angles. Great phone, but sadly I don't have one. Atleast not one like this... NT made these into lineman's test sets (commonly called butt sets because they hang on a lineman's belt by their butt/you use them to butt-in to a call when testing things).

I bought one and turned it into the NT2017 Rotary Cellphone, a real working 2G cellular telephone. It's got an Adafruit Fona board inside with an Atmel 32U4 microcontroller, a little screen, and zero ability to send/receive text messages. It didn't work very well, but it was really fun to build and use before it broke. Construction was very fragile, and my code running it was hot garbage. Since the discontinuation of 2G cell service, it's just decorative at this point.

The last one of my favorites is one I certainly don't have: a late 19th century Skeleton Telephone from Ericsson. Technically not a rotary phone, but it does have a crank that you rotate!

These are expensive, really hard to find, and obviously rather difficult to use without having an operator to ring up when you turn the crank. However, they are stunningly beautiful, and all of the functionality is on display arranged in such a way to accentuate the elegance of its industrial design.

How about you? Do you have a favorite rotary phone?

#rotary phone #northern electric #northern telecom #contempra #commodore #ericcson skeleton phone

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trendingrepots · 3 days

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Satellite Communication Market - Forecast, 2024-2030

Satellite Communication Market Overview

The Market for Satellite Communication is projected to reach $15.18 billion by 2030, progressing at a CAGR of 9.4% from 2024 to 2030. Satellite communication refers to the transmission of data, voice, and video signals using artificial satellites as relay stations. This technology enables communication over long distances, including areas where traditional terrestrial communication infrastructure is unavailable or impractical. Satellite communication systems typically involve the use of ground stations to uplink data to orbiting satellites, which then downlink the data to other ground stations or directly to end-users. These systems are employed in various applications, including telecommunications, broadcasting, navigation, remote sensing, and military operations. The rising demand for various applications such as audio broadcasting and voice communications in end-user industries is analyzed to fuel the growth of the satellite communication industry. The significant adoption of direct-to-home (DTH) in media and entertainment applications is set to positively impact the growth of the market as satellite communication plays a crucial role in communication in providing subscribers with high-quality content. An increase in the use of High Throughput Satellite (HTR) and Low Earth Orbit Satellite for high-speed broadcasting satellite services, cellular backhaul, and other value-added services such as video conferencing, VOIP is set to be the major driver for the growth of the market. The rising adoption of satellite telemetry, automatic identification systems, and Very Small Aperture Terminal markets with improved uplink frequency will drive the market growth.

𝐃𝐨𝐰𝐧𝐥𝐨𝐚𝐝 𝐒𝐚𝐦𝐩𝐥𝐞

Report Coverage

The report based on: “Satellite Communication Market – Forecast (2024-2030)”, by IndustryARC covers an in-depth analysis of the following segments. By Technology: Satellite Telemetry, AIS, VSAT and Others. By Communication Network: Satellite Internet Protocol Terminals, Gateways, Modems and others. By Satellite Services: FSS, BSS, MSS, RNSS, Metrological Satellite Services, SBS, RSS. By Communication Equipment: Network Equipment, Consumer Devices. By End User: Commercial (Power and Utilities, Maritime, Mining, Healthcare, Telecommunication & others), Government & Military (Space Agencies, Defence, Academic Research & others). By Geography: North America (U.S, Canada, Mexico), Europe (Germany, UK, France, Italy, Spain, and Others), APAC (China, Japan India, South Korea, Australia and Others), South America (Brazil, Argentina and others), and ROW (Middle East and Africa).

Key Takeaways

Media and Entertainment is set to dominate the satellite communication market owing to the rising demand from a growing population. This is mainly attributed to the increasing demand for the internet and online streaming services such as Amazon Prime Video, Netflix and so on.

North America has dominated the market share in 2023, however APAC is analysed to grow at highest rate during the forecast period due to the high implementation of 5G in the mobile broadband technologies.

Deployment of 5G, requiring high bandwidth for communication is set to drive the market during the forecast period 2024-2030.

#Satellite Communication Market price #Satellite Communication Market size #Satellite Communication Market share

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siliconsignalsblog · 6 days

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Top 5 Challenges of Embedded Software Development 2025

Businesses are concentrating on efficient methods to evaluate the data and produce insights that will help them improve their business processes and make wise decisions as a result of the rapid generation and gathering of data by enterprises worldwide. This need is being met by artificial intelligence (AI) and machine learning (ML), which also automate processes, solve complicated problems, and allow experience-based self-learning.

Almost every industry, including banking, consumer electronics, aerospace, automotive, security, and others, has experience with embedded systems. The accuracy, dependability, speed, and low power consumption of embedded systems are well known, and they can be applied to a greater range of tasks. A variety of microprocessors, programming languages, and operating systems are needed for the perfect embedded system, which is made up of both hardware and software.

For consumer goods like phones, robots, modems, automobiles, toys, security systems, appliances, televisions, digital watches, etc., many manufacturers utilize embedded software. Embedded software makes a device's hardware function in accordance with our specifications. Firmware, another name for embedded software, is housed in the hardware to form a single embedded system. It supports the operation of mission-critical devices like industrial automation systems, electronic control units, and anti-lock brakes in automobiles, among others. However, development organizations must also overcome certain obstacles presented by embedded software.

Let's talk about a few of the difficulties in developing embedded software.

Stability – Any unexpected behavior on the part of an embedded system can cause chaos and pose significant risks. Its behavior should be consistent under all conditions, and stability is crucial.

Safety – Given that embedded systems are utilized in numerous vital and life-saving functions in all kinds of critical environments, safety is one of their most important challenges. It is distinguished by constraints and stringent demands on testing, quality, and engineering know-how.

Connectivity – Given that there are numerous ways to connect to the internet—Ethernet, Wi-Fi, LoRa, cellular, Bluetooth, and other sources—this is one of the major challenges faced by embedded software developers. Every source has advantages and disadvantages of its own, and developers need to be aware of the various software stacks in order to ensure that the hardware functions.

Security – Developers face a difficult task in protecting their devices against ever-more complex security threats. Due to the devices' interconnectedness, the hazards associated with IoT devices are increasing rapidly as they become more and more popular worldwide. Hacking attacks are a common occurrence, and it's important to identify precisely which information needs to be protected.

Over-the-air-Updates – Once the device is online, developers will be able to remotely update the firmware. Customers can update software on their own with the aid of IoT. But in any deployment involving thousands of devices, the developers must concentrate on

Generate a firmware update

Save it to all the devices

Verify that they are delivered from a reliable source.

Run that specific update on the devices at the appropriate time.

Always be prepared to roll back updates right away in the event of a problem.

Silicon Signals supports the development of embedded systems and software across a range of sectors and industries. Please subscribe to our blog for more information about embedded systems and embedded software development. You can also email us at [email protected] with any questions you have about sales, and we'll be happy to help.

#embeddedsoftware #embeddedsystems #embeddedtechnology #linux kernel #android #linuxdebugging #androidbsp #aosp #iotsolutions #iot development services

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trendingreportz · 2 months

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Satellite Communication Market - Forecast, 2024-2030

Satellite Communication Market Overview

Report Coverage

Request Sample

Key Takeaways

Deployment of 5G, requiring high bandwidth for communication is set to drive the market during the forecast period 2024-2030.

Satellite Communication Market Segment Analysis - by Satellite Services

Satellite services is segmented into fixed satellite services, broadcasting satellite services, mobile satellite services, radio navigation satellite services and others. Mobile satellite services is analyzed to hold the highest share in the satellite communication market in 2023 at 39.1% majorly attributed to the high number of subscribers. There are majorly deployed in aeronautical, land, and maritime services for communication thereby contributing to the growth of the market. For instance, SpaceX's Starlink aims to roll out a commercial satellite-to-phone service in 2024, starting with SMS, then expanding to voice, data, and IoT connectivity by 2025. Advertising on their website, they emphasize compatibility with unaltered LTE phones for setup. In November 2023, The Indian Space Research Organization (ISRO) and NASA are launched a collaborative Earth observation satellite in the first quarter of the upcoming year, as confirmed by the deputy minister for science and technology.

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Satellite Communication Market Segment Analysis - by End User

Media and Entertainment segment is set to dominate the market in 2023 at 25.9%. The significant rise in usage of services like Netflix, Amazon Prime Video, YouTube and so on for entertainment is set to contribute to the growth of the market. Adding to this, the breakout of COVID-19 has led to the high traffic in entertainment applications due to lockdowns implemented in various countries. This is set to be a major contributing factor for increasing demand for higher bandwidths resulting in the growth of the market during the forecast period. The Telecom and IT segment is analysed to grow at significant rate during the forecast period, majorly attributed to the deployment of technologically advanced internet connectivity solutions in the majority of the firms. All these factors are together impacting the growth of the satellite communication market. As a result, growing the demand for satellite services continues to surge across various sectors, driven by advancements in communication technology and expanding applications

Satellite Communication Market by Geography - Segment Analysis

North America is analyzed to be the dominant region in 2023 at 43%, followed by APAC and Europe. This is mainly attributed to the high adoption of advanced technologies in the region alongside the large infrastructural development for the implementation of high broadband services. APAC is anticipated to showcase the highest growth rate during the forecast period 2024-2030. This is majorly due to the high number of satellite launches aimed at communication. For instance, India launched GSAT-24, a communication satellite, in mid-2022. The satellite is built by ISRO for NewSpace India Limited (NSIL), a government company under the Department of Space. GSAT-24 is a 24-ku band satellite that weighs 4180 kg. Adding to this, the development of advanced technologies in countries such as China and South Korea is set to elevate the market growth rate. In December 2023, China became a pioneering force in 5G, boasting over 3 million base stations and extending services to 750 million mobile users and 17,000 factories. This technological advancement solidifies China's position as a global leader in both the deployment and commercialization of 5G infrastructure. These factors are set to boost the market growth during the forecast period 2024-2030.

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Satellite Communication Market Drivers

Growing demand for Maritime Satellite Communication

The increasing demand for maritime satellite communication is significantly set to contribute to the growth of the market. The growing concern for the safety of the people at the borders is creating a dire need for communication. This is set to impact the growth of the maritime communication satellite market. In February 2022, The Russian Satellite Communications Company (RSCC) 's maritime VSAT network expanded to 400 vessels, including 373 sea-going and river ships, along with 27 ice-class ships, including 12 icebreakers. This marks a significant milestone for the Russian Satellite Communications Company in providing connectivity to maritime fleets. This is mainly attributed to providing satellite Automatic Identification System (AIS) data used for ship tracking and specific maritime projects.

Increased Investments for Deployment of 5G

The rise in demand for the 5G and the rising investments for the infrastructure development is to boost the wireless connectivity market. However, the deployment of 5G requires high bandwidth resulting in the launch of satellites thereby contributing to the growth of the satellite communication market. In 2022, For the deployment of 5G, SpaceX has received approval to launch nearly 12,000 starlink internet satellites. Therefore, the launch of these satellites is set to drive the satellite communication market.

Satellite Communication Market Challenges

Space Debris Hindering Launch of Satellites

The presence of space debris is set to pose severe challenges to the communication satellite market. In 2022, the ESA's Space Environment Report reported that over 30,000 pieces of space debris have been recorded and are regularly tracked by space surveillance networks. Space debris poses a significant threat, hindering satellite launches due to collision risks. This dead satellite is also a liability for other satellites that are on a similar trajectory as it’s a popular spot to deposit communications and surveillance satellites. The presence of dead satellites is resulting in the space debris is posing a severe threat to the various other satellites as well as the environment. These factors are set to hinder the growth of the market.

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Satellite Communication Market Landscape

Partnerships, acquisitions, collaboration, technological innovation along with product launches are the key strategies adopted by the players in the Satellite Communication Market. The top players of the market include AsiaSat, Hughes, Bharti Airtel, Space Star Technology, Airbus SE, Thales Group, L3Harris Technologies Inc., Swarm Technologies, Inc., Viasat, Inc., General Dynamics, among others

Acquisitions/Technology Launches/Partnerships

In September 2022, Hughes Communications India has launched India's first High-Throughput Satellite broadband service, utilizing ISRO's GSAT-11 and GSAT-29 satellites along with Hughes JUPITER™ Platform ground technology. It delivers high-speed connectivity across India, supporting enterprise and government networks, community internet access, SD-WAN solutions, mobile network extension, and satellite internet for small businesses.

In November 2023, Viasat, Inc. and Skylo Technologies introduced the world's inaugural global direct-to-device (D2D) network, revolutionizing connectivity for consumers, businesses, and governments worldwide. Leveraging Viasat's expertise in satellite communications and Skylo's non-terrestrial network (NTN) services, this partnership unlocks vast potential for direct connectivity.

In July 2023, the SYRACUSE 4B secure military communications satellite, developed by Airbus and Thales Alenia Space, was triumphantly launched from the Guiana Space Center. This historic event marked the final mission for the Ariane 5, Europe's esteemed heavy launcher.

#Satellite Communication Market #Satellite Communication Market Share #Satellite Communication Market Size #Satellite Communication Market Forecast #Satellite Communication Market Report #Satellite Communication Market Growth

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ejointech · 3 months

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What can you do with a gsm modem ? Learn now ~

A GSM modem unlocks a world of possibilities for communication and control using SMS text messaging over cellular networks. Here's a glimpse into what you can achieve with a GSM modem:

Communication:

Automated notifications: Imagine your equipment sending SMS alerts for low inventory, appointment reminders, or security breaches. GSM modems make this possible.

Remote control: Need to turn on a machine at a remote location? A GSM modem coupled with a control system allows you to send SMS commands for remote activation.

Two-factor authentication: Add an extra layer of security to your logins by using SMS verification codes sent by a GSM modem.

Applications in various fields:

Industrial automation: GSM modems enable remote monitoring of industrial equipment, allowing for timely intervention and maintenance.

Vending machines: Receive real-time stock alerts and even control machine functions remotely using SMS and a GSM modem.

Security systems: GSM modems can be integrated into security systems to send SMS alerts in case of break-ins or security breaches.

Personal projects: Get creative! Build a system for remote control of lights or appliances at home using a GSM modem.

Beyond basic SMS:

SMS marketing: GSM modems can be used for targeted SMS marketing campaigns, although permission and regulations must be followed.

Choosing a GSM modem involves considering:

Cellular network compatibility: Ensure the modem works with your carrier's network (GSM/GPRS or newer).

Features: Do you need message scheduling or bulk messaging capabilities?

Software compatibility: Make sure the modem works with your chosen software and operating system.

Cost: Factor in the modem price, SIM card plan, and any SMS gateway fees.

With a GSM modem, you can unlock new levels of automation, remote control, and communication possibilities – all powered by the familiar world of SMS text messaging.

Welcome to visit: www.ejointech.cn for more information.

#ejointech #sms marketing #sms gateway #sms modem #ejoin sms gateway #sms gateway hardware #promotional sms #bulk sms #ejoin sms #gsm modem #gsm gateway #gsm modem pool #sms service #sms gateway provider

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rohitpalan · 4 months

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5G Chipset Market Predicted to Surge at a 25.5% Year-on-Year Growth, Projected to Attain US$ 180.0 Billion by 2032

The global 5G Chipset Market is slated to witness an unprecedented surge, with a projected annual growth rate of 25.5% Year-on-Year (Y-o-Y), reaching a staggering valuation of US$180.0 billion by 2032. This astronomical growth is substantiated by several key factors.

The escalating demand for cellular Internet of Things (IoT) connectivity, coupled with an increasing need for high-speed internet and expansive network coverage, acts as a significant driving force behind this surge. The proliferation of mobile data traffic and the burgeoning requirement for smart technologies further propel this upward trajectory.

Get a Sample of this Report: https://www.futuremarketinsights.com/reports/sample/rep-gb-14788

Currently, the network capacity is incapable of handling M2M and human-based communications, as well as their different communication patterns such as latency time. For this reason, a next-level cellular network for mobile communication, featuring hyper-connectivity and larger bandwidth, is required (e.g., 5G network).

M2M communication technology will be widely used in heavy manufacturing industries and process industries (e.g., food industries) to increase the efficiency of different processes and reduce human interference with machines. M2M communication is thus expected to drive the 5G chipset market.

Key Takeaways from the Market Study

Global 5G chipset market worth to experience over 8x growth until 2032

By frequency, sales of sub-6 GHz 5G chipsets to accelerate at a 23.2% value CAGR

Asia Pacific to be the most opportunistic region for market growth, registering a CAGR of 25.5%

U.S to emerge as the dominant market, yielding US$ 69 Billion in value by 2032

China to be the most lucrative market in APAC, documenting a 24.6% CAGR

Japan & South Korea to yield dollar opportunities worth US$ 10 Billion and US$ 7 Billion respectively

Competitive Landscape

Players in the global 5G Chipset Market focus on expanding their global reach through various strategies, such as; partnerships, collaborations, and partnerships. The players are also making a significant investment in R&D to add innovations to their products which would help them in strengthening their position in the global market. Some of the recent developments among the key players are:

In September 2020, Qualcomm launched a new 5G mobile platform in the 7-series, the Snapdragon 750G 5G Mobile Platform, which enables 5G with brilliant HDR gaming and on-device AI.

In June 2020, Nokia announced a collaboration with Broadcom for the custom system-on-chip solutions for the vendor’s ReefShark-powered portfolio

In June 2021, Samsung Electronics unveiled a new range of new chipsets that will be embedded into the company’s next generation 5G solutions. The new 3GPP Rel.16 compliant chipsets consist of a third generation mmWave Radio Frequency Integrated Circuit (RFIC) chip, a second generation 5G modem System-on-Chip (SoC) and a Digital Front End (DFE)-RFIC integrated chip.

Request for Customization: https://www.futuremarketinsights.com/customization-available/rep-gb-14788

Know More About What the 5G Chipset Market Repost Covers

Future Market Insights offers an unbiased analysis of the global 5G chipset market, providing historical data for 2015-2021 and forecast statistics from 2022-2032.

Key Segments Covered In The 5G Chipset Market Report

5G Chipset Market by Type:

5G Chipset Modem

5G Chipset RFIC

5G Chipset Market by Process Node:

5G Chipsets less than 10 nm

5G Chipsets between 10-28 nm

5G Chipsets above 28 nm

5G Chipset Market by Frequency:

Sub-6 GHz 5G Chipset

24-39 GHz 5G Chipset

Above 39 GHz 5G Chipset

5G Chipset Market by Application:

5G Chipset for Telecommunications

5G Chipset for Mobile Devices

5G Chipset for Non-Mobile Devices

5G Chipset for Automobiles

5G Chipset Market by Region:

North America 5G Chipset Market

Latin America 5G Chipset Market

Europe 5G Chipset Market

Asia Pacific 5G Chipset Market

Middle East and Africa 5G Chipset Market

#5G Chipset Market

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ankitas · 4 months

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indaxonline · 9 months

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#industrial automation #industrial control systems #plc system #industrial cellular modems #plc systems in india #industrial automation services #allen bradley products #controllogix #allen bradley plc

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the-hacker-news · 5 months

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Severe Vulnerabilities in Cinterion Cellular Modems Pose Risks to Various Industries

The Hacker News : Cybersecurity researchers have disclosed multiple security flaws in Cinterion cellular modems that could be potentially exploited by threat actors to access sensitive information and achieve code execution. "These vulnerabilities include critical flaws that permit remote code execution and unauthorized privilege escalation, posing substantial risks to integral communication networks and IoT http://dlvr.it/T6pjqr Posted by : Mohit Kumar ( Hacker )

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ericvanderburg · 5 months

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Severe Vulnerabilities in Cinterion Cellular Modems Pose Risks to Various Industries

http://i.securitythinkingcap.com/T6pNy0

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jcmarchi · 5 months

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Secure out-of-band console and power management for Check Point security gateways - CyberTalk

New Post has been published on https://thedigitalinsider.com/secure-out-of-band-console-and-power-management-for-check-point-security-gateways-cybertalk/

Secure out-of-band console and power management for Check Point security gateways - CyberTalk

Contributed by WTI as part of Check Point’s CPX silver-level partner sponsorship opportunity. WTI is an industry leader in out-of-band network management.

Nobody has time to drive to a site when an ISP drops service or you simply need to reconfigure and/or reboot a switch, router or firewall. Your time is too valuable not to have an out-of-band solution in place. WTI out-of-band solutions comes with a cellular connect and fallback option that gives you secure remote access to console ports as well as control of individual power outlets when your network services are disrupted.

WTI out-of-band management solutions

WTI engineers and manufactures secure out-of-band management solutions for local and globally deployed networks. WTI out-of-band products are designed to ensure uninterrupted access to network devices and services by providing solutions to quickly and effectively respond to problems at distant or hard to reach equipment sites. When a router, switch or security appliance becomes inaccessible and interrupts network services, WTI out-of-band solutions provide redundant, remote console port management and power switching/reboot control to regain access and restore services in mission critical applications.

Even when the network is down, WTI out-of-band console server solutions can provide secure connectivity over primary and secondary ethernet and cellular LTE connections, allowing remote access to console ports and power control functions.

In addition, WTI DevOps allows administrators to configure, deploy and orchestrate WTI out-of-band management solutions across your entire network for automated provisioning, monitoring and disaster recovery of critical infrastructure. Features such as RESTful API, Ansible Playbooks and Python Scripting are supported.

Check Point Software Technologies and WTI

WTI offers a comprehensive out-of-band management strategy for Check Point Security Gateways, allowing your NOC to deal with equipment outages and resulting interruptions of network communication without the need to dispatch support teams to remote branch offices and data centers.

During network outages, WTI’s console server products allow you to establish remote out-of-band connections to console ports on security gateways via secure, authenticated communication protocols. If a reboot is needed, WTI Switched PDU products can provide remote out-of-band access to power switching functions at distant equipment sites. WTI also offers a combination console server plus switched PDU unit for applications that require both out-of-band console access and power reboot control.

WTI out-of-band centralized management provides access and control for all of your network devices, allowing for console data from multiple Check Point devices spread over a global network to be monitored, logged and available to administrators, simplifying the challenge of managing a large number of remote devices while minimizing resources.

With multiple connectivity options, WTI console servers including 4G LTE and/or dual Gigabit Ethernet ports can provide secure access to advanced DNS functions when primary and/or secondary ISP connections are switched or disconnected. WTI’s dual ethernet console servers allow you to remotely configure primary and secondary DNS settings and set up IP tables to maximize availability of security gateways during network outages, ensuring seamless transfers between primary and secondary ISPs. The optional 4G LTE internal modem provides a secure additional alternate path for out-of-band connectivity using security protocols such as IPSec and OpenVPN.

About WTI

WTI designs and manufactures Secure Out-of-Band Management Solutions for local and globally deployed networks. WTI provides redundant OOB console access and power control to mission critical infrastructure … even when the network is down. WTI products can be purchased factory direct and through various channel partners worldwide. Since 1964, WTI has maintained local in-house manufacturing, engineering and technical support. Learn more at www.wti.com.

About Check Point Software Technologies, Ltd.

Check Point Software Technologies Ltd. (www.checkpoint.com) is a leading AI-powered, cloud-delivered cyber security platform provider protecting over 100,000 organizations worldwide. Check Point leverages the power of AI everywhere to enhance cyber security efficiency and accuracy through its Infinity Platform, with industry-leading catch rates enabling proactive threat anticipation and smarter, faster response times. The comprehensive platform includes cloud-delivered technologies consisting of Check Point Harmony to secure the workspace, Check Point CloudGuard to secure the cloud, Check Point Quantum to secure the network, and Check Point Infinity Core Services for collaborative security operations and services.

WTI out-of-band management solutions provide Check Point security gateways with:

In-band and out-of-band console access from anywhere.

Remotely reconfigure, revive and restore gateways via SSH.

Connect via ethernet or cellular 4G LTE with optional failover.

Power cycle and monitoring capabilities.

Faster network issue resolution.

Application example

Challenge: Provide secure, authenticated access to configuration parameters on console ports on Check Point security gateways during outages.

Answer: WTI console servers with dual gig ethernet ports ensure secure console port connections via primary and secondary ethernet as well as OOB access via optional LTE cellular modem.

Results: If the primary in-band network fails, admins can initiate secure SSH connections to security gateway console ports via out-of-band, allowing access to configuration parameters and other data used to troubleshoot unresponsive devices and revive network services.

In conclusion, WTI out-of-band management solutions empower your team to regain control quickly and reduce network disruptions. Are you ready to save time, energy and resources? Let’s discuss how WTI can help!

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iruchakalyan · 7 months

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Global 5G Technology Market : Growth and Analysis ,Forecast 2023 to 2032 by Product Revenue and Type.

The Global 5G Technology Market was valued at USD 139.5 Billion in 2023 and is estimated to reach USD1780.60 Billion by 2030, growing at a CAGR of 40.9 % from 2023 to 2030.

Scope of the market:

A 5th-generation technology for digital cellular wireless networks that offers faster speed, reliable connection, and increased network capacity. 5G service technology supports 5G applications like Augmented reality(AR), virtual reality(VR), Internet of Things (IoT), and many more.5G networks have faster speed as compared to previous networks like 4G, providing super-fast data transmission. For instance, augmented reality will enhance the wearable technology that will be integrated with the person’s daily life due to its speed. 5G will also help in improving the safety and security in smart cities. For example, tracking car accidents, real-time video recording, and terrorist attacks can automatically send signals or warn security to take a step ahead. For CCTV systems as well 5 G-enabled equipment will be able to receive the updates wirelessly and can also link various devices simultaneously.

5G technology in the future will demand more gadgets and increasing demand for smartphones will expand this market growth. The 5G mobile services market revenue is expected to generate 845 billion dollars by 2033. Moreover, post-Covid, people are more reliable on faster network speed which has developed a demand for high-speed connectivity.

Moreover, laptop manufacturers are enabling the 5 G inbuilt as the primary need for coming generations. Additionally, chipmaker Intel has offered new 5G solution 5000 modems in laptops from Asus, Acer, and HP covering most of the models.

According to Ericsson, 5G subscriptions will tremendously expand in the year 2020 to 2027, to almost acquiring 4 billion subscriptions. Countries like India, Bhutan Nepal, and East Asia will be highly capturing subscriptions.

Economic Impact of Covid-19:

The analysis of the COVID-19 recovery trajectory provides an overview of the main strategies that industries are implementing to respond to and recover from the economic crisis. It alsofocuses on the post-pandemic and pre-pandemic era of the Global 5G Technology Market through PEST analysis, SWOT, Quantitative and Qualitative analysis, Attractive analysis, and DROs.

Key Players:

Qualcomm Technologies Inc,

Samsung Group

MediaTek Inc,

ZTE Corporation

Accenture Plc

Dell Technologies Inc.

HCL Technologies Ltd.

Viavi Solutions Inc.

Fujitsu Ltd

Cisco Systems Inc.

Intel Corp.

Deutsche Telekom AG

T Mobile US Inc.

Siemens AG

Telstra Ltd.

Recent Developments in Global 5G Technology Market.

In 2023, Qualcomm Technologies, a leader in 3G, 4G, and 5G is now driving the technology evolution for 5G Advanced in Release 18. This 5G advance will support new devices, services, spectrum, and deployments. 5G is predicted to power the digital economy and will enable up to 13.1T $ globally by 2035. The connected intelligent edge will deliver better privacy and lower latency.

Snapdragon, X70 has introduced the world's first 5G AI processor in a 5G Modem-RF system, a breakthrough 5G performance.

In 2023, MediaTek and Samsung Electronics Co Ltd completed the successful testing of 5G standalone Uplink (UL) 2CC carrier aggregation with C-band UL MIMO to reach the top uplink which is the best achievement on wireless mobile capabilities. The demand for uplink performance is increasing due to factors like live streaming, video conference, and multi-player gaming.

With over 50 million 5G consumers reliance Jio has led the 5G adoption in India.

Know More- https://nexbindinsight.com/information-and-communications-technology/global-g-technology-market

#5G Technology Market

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imirmarketresearch · 7 months

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#LTE Chipset Market trend

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robertemma27-blog · 7 months

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Exploring the $81.0 Billion 5G Chipsets Industry by 2028

The 5G Chipsets market is projected to grow from USD 36.3 billion in 2023 to USD 81.0 billion by 2028; it is expected to grow at a CAGR of 17.4% from 2023 to 2028. The key factors fueling the growth of the 5G Chipsets market include rising investments in 5G network by leading corporations and the growing demand for 5G supported consumer electronics.

The Sub – 6 GHz 5G Chipsets segment is projected to hold the highest account from 2023 to 2028

OEMs have a demand for both sub-6 GHz and mmWave frequency bands. 5G devices operating in the sub-6 GHz spectrum band are likely to play an important role in delivering widespread coverage and supporting multiple use cases. Companies such as Huawei and ZTE do 90% of their work in sub-6 GHz. Sub-1 GHz frequency support 5G services in urban, suburban, and rural areas and may find its role in IoT services. This spectrum is likely to help 5G services reach hard-to-reach and populated public areas. Spectrum from 1 to 6 GHz is used for coverage and capacity applications of 5G.

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By Process Node, less than 10 nm Chipsets segment is expected to have high share in the market

5G chipsets with less than 10 nm process nodes primarily include modems for mobile devices and 5G infrastructure to an extent. X55 and X50 modem chips, offered by Qualcomm, are built on 7 nm nodes, while the X60 modem chip is built on a 5 nm node. A shift from a larger to a smaller process node, such as 5 nm and 7 nm, makes the actual modem hardware smaller and more power efficient, making it feasible to fit into smaller devices. 5G-integrated SoCs, offered by MediaTek, have an inbuilt Helio M70 modem and are built on a 7 nm node.

North America region is expected to hold a moderate growth rate in the market during the forecast period

The growth of the North America 5G chipsets market is attributed to various factors, such as an increase in automation in different industries, several subscribers owning more than one connected device, the emergence of advanced technologies, e.g., IoT, the high growth rate of connected/autonomous cars, increase in cellular M2M connections, high demand for on-demand video services, and development of smart cities. 5G network connectivity will be required in these applications.

The key players operating in the 5G Chipsets market are Qualcomm Technologies, Inc. (US), MediaTek Inc. (Taiwan), Huawei Technologies Co., Ltd. (China), SAMSUNG (South Korea), and Broadcom (US), Qorvo, Inc (US), Skyworks Solutions, Inc. (US), Analog Devices, Inc. (US), Marvell (US), Anokiwave, Inc (US), NXP Semiconductors (Netherlands), Xilinx (Acquired by AMD) (US), Texas Instruments Incorporated (US), Murata Manufacturing Co., Ltd. (Japan), Renesas Electronics Corporation (Japan), Infineon Technologies AG (Germany), MACOM (US), u-blox (Switzerland), Sivers IMA (Sweden), Unisoc (Shanghai) Technologies Co., Ltd. (China), Arm Limited (UK), Cadence Design Systems, Inc. (US), Fibocom Wireless Inc. (China), Quectel (China), and OMMIC (France).

#5G Chipsets Market

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