Round Solutions GmbH & Co. KG

Founded 1999 in Germany, Round Solutions is one of the leading pioneers in M2M and IoT technologies. We design, build and distribute the world's most advanced Edge and wireless technologies.‍

Virtualized Evolved Packet Core Market Projected to Reach $19.87 Billion by 2031

Meticulous Research®—a leading global market research company, published a research report titled, ‘Virtualized Evolved Packet Core Market by Component (Solutions, Services), Application (LTE, VoLTE, IoT & M2M, MPN & MVNO), Deployment Mode (On-premise, Cloud), End User (Telecom, Enterprises), and Geography - Global Forecast to 2031.’

According to the latest publication from Meticulous Research®, the virtualized evolved packet core (vEPC) market is projected to reach $19.87 billion by 2031, growing at a CAGR of 19.3% from 2024 to 2031. This growth is driven by the significant increase in mobile data traffic volumes and the rising demand for high-speed data services. However, data security risks associated with vEPC infrastructure pose challenges to market growth. Additionally, increasing investments in 5G technology, the rising adoption of cloud-native 5G core solutions, and the growing use of IoT technology present substantial growth opportunities for market players. Challenges such as the reliability of vEPC solutions and misconceptions about them remain, while the integration of edge computing with vEPC technology is emerging as a prominent trend.

Market Segmentation

By Component:

Solutions and Services: In 2024, the solutions segment is expected to account for the larger share of the market, driven by the need to reduce OPEX and CAPEX, increasing mobile data traffic, and the benefits of vEPC, including agility, flexibility, scalability, and low-latency delivery. For instance, in December 2022, T-Mobile USA, Inc. collaborated with Cisco Systems, Inc. to launch a cloud-native converged core gateway, enhancing performance by over 10% in speed and latency. The services segment is expected to register the higher CAGR due to the growing need for vEPC consulting, solution development, and maintenance.

By Application:

MPN & MVNO, LTE & VoLTE, and IoT & M2M: In 2024, the MPN & MVNO segment is expected to hold the largest share, attributed to the increasing penetration of mobile devices, rising demand for low-cost mobile services, and high-speed internet connectivity. The IoT & M2M segment is expected to register the highest CAGR, driven by the need for remote monitoring of devices, autonomous decision-making, and control of real-world objects.

By Deployment Mode:

On-Premise and Cloud-Based Deployments: In 2024, the on-premise deployments segment is expected to account for the larger share due to large enterprises' preference for on-premise vEPC solutions for greater control. The cloud-based deployments segment is expected to register the higher CAGR due to benefits like easy maintenance, cost-effectiveness, scalability, and the growing demand for cloud-based vEPC.

By End User:

Telecom Operators, Enterprises, and Others: In 2024, the telecom operators segment is expected to hold the largest share, driven by the adoption of vEPC solutions to improve latency, IT agility, speed, and bandwidth connectivity. This segment is also expected to register the highest CAGR, supported by initiatives to reduce OPEX and CAPEX.

Geographical Analysis

North America: Expected to hold the largest market share in 2024, driven by the adoption of vEPC solutions to enhance network infrastructure, the proliferation of advanced networking technologies, and government support for 5G infrastructure development. For instance, in December 2021, Ericsson partnered with Nex-Tech Wireless to launch 5G capabilities in Kansas.

Asia-Pacific: Expected to register the highest CAGR, driven by increasing mobile subscribers, growing mobile data traffic, adoption of network function virtualization solutions, and the deployment of 5G-ready cloud core solutions. For example, in August 2021, Asia-Pacific Telecom Co Ltd selected Ericsson to modernize Taiwan's LTE network with 5G NSA technology.

Key Players

Key players in the virtualized evolved packet core market include Cisco Systems, Inc. (U.S.), Telefonaktiebolaget Lm Ericsson SE (Sweden), Huawei Technologies Co., Ltd. (China), Samsung Electronics Co., Ltd. (South Korea), Nokia Corporation (Finland), Affirmed Networks (a subsidiary of Microsoft Corporation) (U.S.), Mavenir Systems, Inc. (U.S.), ZTE Corporation (China), F5 Inc. (U.S.), NEC Corporation (Japan), IPLOOK Networks Co., Limited (Hong Kong), Parallel Wireless, Inc. (U.S.), Polaris Networks (a subsidiary of Motorola Solutions, Inc.) (U.S.), Athonet S.r.l. (a subsidiary of Hewlett Packard Enterprise) (Italy), Intel Corporation (U.S.), Tecore Networks (U.S.), Lemko Corporation (U.S.), and Metaswitch Networks Ltd (a subsidiary of Microsoft Corporation) (U.K.).

Download Sample Report Here @ https://www.meticulousresearch.com/download-sample-report/cp_id=5201

Key Questions Answered in the Report:

Which are the high-growth market segments in terms of component, application, deployment mode, and end user?

What is the historical market size for the global virtualized evolved packet core market?

What are the market forecasts and estimates for 2024–2031?

What are the major drivers, restraints, opportunities, challenges, and trends in the global virtualized evolved packet core market?

Who are the major players in the global virtualized evolved packet core market, and what are their market shares?

What is the competitive landscape like?

What are the recent developments in the global virtualized evolved packet core market?

What are the different strategies adopted by major market players?

What are the trends and high-growth countries?

Who are the local emerging players in the global virtualized evolved packet core market, and how do they compete with the other players?

Contact Us: Meticulous Research® Email- [email protected] Contact Sales- +1-646-781-8004 Connect with us on LinkedIn- https://www.linkedin.com/company/meticulous-research

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6D Technologies to Exhibit Its Top Products at MWC Barcelona 2024

6D Technologies announced its participation in MWC Barcelona from 26th Feb to 29th Feb, 2024. The company will exhibit its AI-driven technology products for telcos and CSPs.

6D Technologies is a well-known global leader in the telecom and enterprise solution provider industry. The company has delightedly announced its participation as one of the exhibitors at the upcoming Mobile World Congress (MWC) 2024.

As per the shared details, the participation details of 6D Technologies are as below:

Booth No: Stand 2D40 in Hall 2

Venue: Fira Gran Via, Barcelona

Dates: February 26 to February 29, 2024

6D Technologies will showcase its innovative products that are empowered with AI technology to make a difference in the lives of communication service providers, small and large scale telcos, and other companies operating in the telecommunication industry.

The spokesperson of the company announced a brief of all products to be exhibited at MWC Barcelona 2024.

Telecom Digital BSS Platform

Canvas is a complete digital BSS suite that modernizes business support operations and digitizes legacy networks. This platform encompasses advanced modules such as a telecom CRM system, online charging system, billing mediation platform, order management solution, partner management system, unified product catalog management, and more.

Intelligent Customer Value Management Platform

Magik is an AI-powered CVM and big data analytics platform that harnesses the power of AI, ML, and big data to predict customer behavior to devise personalized customer engagement and value management plans. It consists of key modules like campaign management, telecom loyalty programs, gamification software in telecommunication, BI reporting, and more.

Sales and Distribution Platform

Ventas is a full fledged telecom sales and distribution suite that is developed to track and manage the efficiency and accuracy of sales representatives of CSPs. It encompasses futuristic modules like PoS management, inventory management, geo business visibility, telecom channel partner management, field force management, digital onboarding, telecom commission management, and more.

Telecom IoT Platform

Infinity is a popular IoT solution for telcos that blends the perfect power of the Internet of Things and AI to increase advantages for CSPs and telcos. Certainly, it helps in increasing monetization options for telcos with its cutting-edge technologies and efficient modules like M2M device management, URL filtering, IoT connectivity management, IoT middleware, and more.

Telecom Digital Financial Platform

Aureus is an all-inclusive AI packed digital financial suite for companies operating in the telecommunication industry. It is developed on multichannel principles and it provides access to some really powerful tools like a mobile wallet, merchant management, agency banking solution, conversational banking system, voucher management solution, automated chargeback management solution, and more.

Unified VAS platform

Lynx is a renowned unified VAS consolidation and network management platform that blends an array of functionalities and apps within a single platform for telcos. It provides a robust platform and a range of empowering solutions such as SMS and signaling firewall, network solutions, SMSC, SMS gateway, USSD gateway, CRBT, SDP, WSMS, and many more.

About MWC Barcelona 2024

Mobile World Congress (MWC) is renowned as the ultimate event for global mobile connectivity and telecommunication professionals. MWC Barcelona 2024 will spotlight six key themes: 5G and Beyond, Connecting Everything, Humanising AI, Manufacturing DX, Game Changers, and Our Digital DNA. This event will showcase leading brands amidst cutting-edge technologies, compelling content, and influential keynotes. It claims to promise insightful keynote sessions, inspiration, and impactful business deals, bringing decision-makers and keynotes to the forefront of the global mobile industry.

About 6D Technologies

6D Technologies secures the top place as one of the leading providers of the best technology products to the mobile and telecommunication industry. It specializes in telecommunications solutions, digital transformation, and AI driven products that bring revolutionary changes for telcos, network operators, CSPs, and more. The representatives of 6D Technologies will participate in the upcoming event, MWC Barcelona 2024 to exhibit their flagship products. To learn more about participation of 6D Technologies at MWC 2024, please visit  https://www.6dtechnologies.com/press-release/mobile-world-congress/

https://www.advancemarketanalytics.com/reports/166094-global-satellite-hub-system-market

Is satellite hub system Market Growing too big, too fast?

Advance Market Analytics released a new market study on Global Satellite Hub System Market Research report which presents a complete assessment of the Market and contains a future trend, current growth factors, attentive opinions, facts, and industry validated market data. The research study provides estimates for Global Satellite Hub System Forecast till 2029*.

A satellite hub system is also known as a gateway or teleport and is a communication station that receives and transmits data to and from the satellite to the local area networks. Satellite hub systems provide backhauling of the data or various IP applications such as IoT, Interactive TV, and M2M, with high effectiveness and efficiency. It also enables satellite operators to serve a large population with optimized use of the specific satellite band. A satellite hub system can be managed via a simple network management protocol and also through a user-friendly embedded web browser. The rising demand for satellite communication, especially among the government and military sector is leading to increasing demand for the satellite hub system market globally.

Key Players included in the Research Coverage of Satellite Hub System Market are:

Hughes Network Systems, LLC (United States), ST Engineering iDirect, Inc. (United States), Viasat, Inc. (United States), NSSLGlobal Technologies AS (Norway), EPAK GmbH (Germany), Vision Technologies (United States), GILAT SATELLITE (Israel), UNIQUE LIGHTING (United States), Comtech EF Data (United States), UHP Networks (Canada)

What's Trending in Market: Technological Improvements in Image Capturing Techniques by Satellites

Challenges: Lack of Skilled Working Professionals

Opportunities: Remote Sensing Data Are Increasing Increased Government Spending On Space Programs

Market Growth Drivers: Increasing demand for Satellite Hub System by the commercial sector Growing Satellite Communication Industry across the Globe

The Global Satellite Hub System Market segments and Market Data Break Down by Type (Passive Satellite Hub System, Active Satellite Hub System, Intelligent Satellite Hub System), Organization Size (Small & Medium Enterprises (SMEs), Large Enterprises), End Use Industry (Automotive, Maritime, Oil and Gas, Energy and Utility, Government and Public sector, Mining, Transportation and logistics, Healthcare, Security and Surveillance, Agriculture, Retail, Others), Component (Hardware, Services (Consulting, Integration and Implementation, and Maintenance & Operation))

Get inside Scoop of the report, request for free sample @: https://www.advancemarketanalytics.com/sample-report/166094-global-satellite-hub-system-market

To comprehend Global Satellite Hub System market dynamics in the world mainly, the worldwide Satellite Hub System market is analyzed across major global regions. AMA also provides customized specific regional and country-level reports for the following areas.

• North America: United States, Canada, and Mexico.

• South & Central America: Argentina, Chile, Colombia and Brazil.

• Middle East & Africa: Saudi Arabia, United Arab Emirates, Israel, Turkey, Egypt and South Africa.

• Europe: United Kingdom, France, Italy, Germany, Spain, Belgium, Netherlands and Russia.

• Asia-Pacific: India, China, Japan, South Korea, Indonesia, Malaysia, Singapore, and Australia.

BLIIoT Water Meter Pulse Counting Gateway S271

Background

No matter where you live, water and electric meters are an absolute must. Water meters record how much water you use and how much you pay for it. Water meters help monitor data, conserve water, and lower water bills.

Pulse Counting Gateway

Pulse Counting Gateway S271 is designed to count the number of pulses from electricity meters, water meters or general meters as well as machinery and equipment with pulse outputs. Quickly and cost-effectively transform your traditional water meter into a smart water meter, monitoring data in real time.

Solution

Pulse Counting Gateway S271 can be used in different applications such as agricultural irrigation, smart building meter reading and industrial water use. The device can be connected to a pulse water meter, and then collect water use data and upload the data to the IoT cloud platform via 4G for further visualization. Users can check the status of the water meter and perform monitoring and control at any time. The pulse counter can provide remote monitoring and visual intelligent data management to achieve water conservation.

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Lierda Science & Technology Group Co.,Ltd. headquarters

Make the IoT world easier

We have established an integrated industrial chain of IoT embedded solutions : electronic components, microcontrollers, sensors, wireless communication, IoT gateways and IoT cloud platforms, to promote the transition and upgrade of traditional industries.

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Lierda has deep background and rich experience in embedded micro-control technology, RF hardware R&D, communication, networking technology, and has mature communication solutions such as 5G, NB-loT, LoRa, Wi-Fi, Wi-SUN, BLE, etc.

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Global 5G Chipset Market Insights

5G Chipset Market size was valued at USD 16.04 billion in 2021 and is poised to

grow from USD 19.28 billion in 2022 to USD 92.05 billion by 2030, growing at a

CAGR of 21.8% in the forecast period (2023-2030).

A 5G chipset is a specialized component of customer premises equipment and

network infrastructure equipment that allows the end user to create a wireless

network based on 5G network specifications. The proliferation of internet-

connected devices raises the need for a completely new wireless infrastructure

known as 5G. Fifth-generation wireless (5G) is the mobile network generation

that follows the current 4G LTE mobile network. These networks extend

broadband wireless Operational Frequency beyond mobile internet to the

Internet of Things (IoT) and critical communications segments, allowing for a

global perception of complete connectivity.

The 5G chipset market is expected to grow significantly during the forecast

period due to proliferation of M2M/IoT connections. Furthermore, the market is

growing due to an increase in demand for high-speed internet and extensive

network coverage. Furthermore, an increase in demand for mobile broadband

operational frequency is expected to drive 5G chipset market growth during

the forecast period.

Several leading telecom operators all around world, including AT&T, Inc.,

Verizon Communications, and China Telecom Corporation Limited, are

investing heavily in the deployment of 5G network infrastructure to provide

high-speed connectivity to their customers. However, Governments of all

across the world are focusing to implementing 5G technology and applications

policies that have pushed operators globally into even stronger rivalry in 5G

large-scale commercial deployment and vertical industries testing.

Get more info about Global Chipset Market- https://www.skyquestt.com/report/5g-chipset-market

Analysis:

Global 5G Chipset Market Segmental Analysis

Global 5G chipset market is segmented based on frequency type, node type,

deployment type, vertical outlook, and region. Based on frequency type, 5G

Chipset Market is categorized into sub-6GHz mmWave, sub-6GHz+ mmWave.

Based on node type, 5G Chipset Market is categorized into: 7 nm, 10 nm. Based

on deployment type, 5G Chipset Market is categorized into telecom base

station equipment, smartphones/tablets, single-mode connected vehicles,

connected devices, broadband access gateway devices. Based on vertical

outlook 5G Chipset Market is categorized into manufacturing, energy & utilities,

media & entertainment, IT & telecom, transportation & logistics, and

healthcare. Based on region, 5G Chipset Market is categorized into North

America, Europe, Asia-Pacific, South America, and MEA.

5G Chipset Market Analysis by Node Type

In terms of value, the 7 nm segment dominated the market in 2020, accounting

for 64.2% of the market. This is due to key players' initial focus on developing 5G

chipset components with a 7nm processing node. Leading market players such

as MediaTek Inc., Huawei Technologies Co. Ltd., Intel Corporation, and

Qualcomm Incorporated are focusing their initial efforts on developing 5G

chipset components with a 7nm processing node. Furthermore, these market

players are currently focused on manufacturing 7 nm and 10 nm chipset

processing nodes to support high band frequencies.

Modern communication networks, on the other hand, are expected to face

heavier loads as they serve multiple applications at the same time. This would

necessitate the creation of a new chipset capable of faster processing speeds.

As a result, the 10 nm segment is expected to grow at a rapid pace over the

forecast period. Furthermore, as self-driving cars become more common, the

need for seamless connectivity between vehicles will grow, and higher

processing nodes will be required to develop 5G chipset components.

5G Chipset Market Analysis by Frequency Type

In 2020, Sub-6 GHz is attributed to hold largest market size of 5G chipset

market. 5G devices operating in the Sub-6 GHz frequency region are expected

to play a key role in providing comprehensive coverage and enabling a wide

range of use cases. Companies like Huawei and ZTE do 90% of their work in sub-

6 GHz. Sub-1 GHz frequencies provide 5G services in urban, suburban, and rural

locations, and they may also play a role in IoT services. This spectrum will most

likely aid in the delivery of 5G services to hard-to-reach and densely populated

public places. 5G coverage and capacity applications employ spectrum from

1 to 6 GHz

Top Players in the Global 5G Chipset Market

• Qualcomm Technologies, Inc.

• Samsung Electronics Co., Ltd.

• MediaTek Inc.

• Intel Corporation

• Xilinx Inc.

• Infineon Technologies AG

• Huawei Technologies Co. Ltd.

• Broadcom Inc.

• Qorvo Inc.

• Nokia Corporation

• Ericsson AB

• Fujitsu Limited

• Analog Devices Inc.

• Murata Manufacturing Co., Ltd.

• NXP Semiconductors N.V.

• Marvell Technology Group Ltd.

• Texas Instruments Inc.

• ZTE Corporation

• Renesas Electronics Corporation

• Unisoc Communications Inc.

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SkyQuest Technology is leading growth consulting firm providing market intelligence, commercialization

and technology services. It has 450+ happy clients globally.

Address:

1 Apache Way, Westford, Massachusetts 01886 Phone: USA (+1) 617-230-0741

Email: [email protected]

OPC-UA Platform Market Unidentified Segments – The Biggest Opportunity Of 2022

Latest business intelligence report released on Global OPC-UA Platform Market, covers different industry elements and growth inclinations that helps in predicting market forecast. The report allows complete assessment of current and future scenario scaling top to bottom investigation about the market size, % share of key and emerging segment, major development, and technological advancements. Also, the statistical survey elaborates detailed commentary on changing market dynamics that includes market growth drivers, roadblocks and challenges, future opportunities, and influencing trends to better understand OPC-UA Platform market outlook. List of Key Players Profiled in the study includes market overview, business strategies, financials, Development activities, Market Share and SWOT analysis are ABB Ltd. (Switzerland)

Advanced Industrial Automation Group (United States)

Emerson Electric Company (United States)

General Electric (United States)

Infineon Technologies AG (Germany)

National Instruments (United States)

Mitsubishi Electric (Japan)

Rockwell Automation, Inc. (United States)

Schneider Electric SE (France)

Siemens AG (Germany)

Communications on an Open Platform United Architecture, often known as OPC-UA, is a data interchange standard for industrial communication that is supposed to be secure and dependable. Multiple OPC standards exist, each of which is designed in a series of specifications to meet the needs of industry suppliers and other end-users. Various company verticals are leveraging to seek operational performance, consequently driving the OPC-UA Network Industry growth, due to the increased implementation of industrial communication for enhanced industrial automation and building automation processes and communication protocol efficiency. Furthermore, rapid advancements in the field of IoT are hastening the trend toward promoting factory modernization efforts, such as the diversity of connected equipment. In addition, the introduction of the 5G mobile communications standard has increased M2M communication capabilities, building automation, and other wireless network solutions such as modular programming and virtual private networks, which are expected to fuel the OPC-UA Network Market. As a result, the rising demand for faster, scalable, secure, and resilient interoperable communication protocols for a variety of industrial automation processes, as well as rapid digitalization across a variety of industry verticals, are expected to propel the OPC-UA Network Market forward. Key Market Trends: Growing adoption of OPC UA in OPC Technology

The emergence of 5G Mobile Communications Standard Accelerated the M2M Communication Possibilities

Opportunities: Increasing adoptions of OPC UA in the Manufacturing Industry

Growing Popularity of Industrial Control and Factory Automation Due to 4.0 and other Digital Technologies, Further Creates Opportunities for the Market

Market Growth Drivers: The growing popularity of smart factory

The emergence of Industrial Robots

Challenges: Major Skill labor Shortage The Global OPC-UA Platform Market segments and Market Data Break Down by Protocols (Data access (DA), Alarm & Events (AE), Historical Data Access (HDA), XML Data Access (XML DA), Data eXchange (DX)), Offerings (Hardware (Modules, Gateways, Servers, and Others), Software and Services), End User (Pharmaceuticals, Oil & Gas, Power & Energy, Chemicals, Water/Waste Water Management, Building automation, Manufacturing)

Presented By

AMA Research & Media LLP

IOT in security & surveillance

Abstract: Security and surveillance has become a common facet of business. There are dangers in the world: some are personal dangers, others are dangers or risks associated with assets. While there has been much recent debate about the appropriate use and amount of surveillance, it is fair to say that some amount of security and surveillance is necessary in today’s world.

                                                   INTRODUCTION 

Security and surveillance solutions include everything from the most simple home monitoring systems and burglar alarms, to high-definition, motion-detecting cameras and retina scanning security solutions. Various forms of connectivity – both fixed-line and wireless – enable a basic type of M2M security solutions. However, when data from the solutions are aggregated and analyzed to predict behavior or thwart crimes, and we are able to access these data on common platforms and devices – including mobile devices – we have entered the world of the Internet of Things (IoT).

In 2012 there were 28 million security and surveillance IoT device connections worldwide growing to 170 million in 2021 at a compound-annual-growth-rate of 22%. See Figure 1. These include device connections in homes and businesses. Today, quite a large percentage of security and surveillance systems – especially those in homes – are unconnected. We anticipate an increase over the next ten years of the percentage of these kind of home systems that are connected

                                                      WORKING

To function as intended, IoT devices need to be managed both internally, (e.g., software maintenance) and externally (i.e., their communication with other devices).

This is accomplished by connecting every IoT device to a management unit, known as a command and control (C&C) center. Centers are responsible for software maintenance, configurations, firmware updates to patch bugs and vulnerabilities, as well as the provisioning and authentication of tasks, such as device enrollment.

Communication between devices is enabled via application program interface (API). Once a device’s manufacturer exposes its API, other devices or applications can use it to gather data and communicate. Some APIs even allow control over devices. For example, a building manager can use an API to remotely lock doors inside a specific office. 

C&C centers and APIs effectively manage day-to-day IoT operations. That said, their centralized nature creates a number of exploitable weak spots, including:

Unpatched vulnerabilities – Connectivity issues or the need for end-users to manually download updates directly from a C&C center often result in devices running on outdated software, leaving them open to newly discovered security vulnerabilities.

Weak authentication – Manufacturers often release IoT devices (e.g., home routers) containing easily decipherable passwords, which might be left in place by vendors and end-users. When left open to remote access, these devices become easy prey for attackers running automated scripts for bulk exploitation.

Vulnerable APIs – As a gateway to a C&C center, APIs are commonly targeted by a variety of threats, including Man in the Middle (MITM), code injections (e.g., SQLI), and distributed denial of service (DDoS) assaults. More information about the implications of API-targeting attacks can be found here.

Data Theft

An IoT device contains vast amounts of data, much of which is unique to its individual users, including online browsing/purchase records, credit card details and personal health information.

An improperly secured device leaves this data vulnerable to theft. What’s more, vulnerable devices can be used as gateways to other areas of the network they are deployed on, allowing for more sensitive data to be extracted.

Physical Harm

IoT devices are now commonplace in the medical industry, with examples including pacemakers, heart monitors and defibrillators. While convenient (e.g., a doctor can fine-tune a patient’s pacemaker remotely), these devices are also vulnerable to security threats.

An improperly secured device can be exploited to interfere with a patient’s medical care. It’s an exceedingly rare occurrence, albeit one to be considered when developing a strategy for securing IoT devices.

                                             APPLICATIONS  

The Opportunity - Smart Surveillance

Everyone is talking about the Iot, a trendy area of tech that is fairly new and growing exponentially. According to some estimates, the Internet of Things will connect 50 billion devices (not including PCs, smartphones and tablets) by 2020 – 250 of which will get connected every second. Also, the global economic value of IoT will reach $19 trillion by 2020. These figures have gotten everyone interested, including big players like IBM, which has recently invested $3 billion in its IoT division. So what is the significance for the video surveillance and security sector? The Internet of Things is likely to have a tremendous impact, as all types of organizations will look to connect their devices, enhance security and create ‘smart surveillance’ solutions.

Approach Reformulated With IoT

For many years, the focus within the video surveillance industry has been to connect most systems to Internet Protocol (IP) based networks. The next phase, Machine-to-Machine (M2M) as we call it, managed to create a connected device-based industry, and IP video surveillance systems perfectly integrated into that. Typical M2M successful examples would be GPS tracking solutions and remote asset (fixed or mobile) monitoring, to name a few. The result of these migrations was a huge amount of data that businesses had to manage.

With the recent improvements in mobile network (like LTE high speed connections), cloud technology and readily available fiber optics backbone, the Internet of Things (IoT) came into play. IoT brings a holistic approach to the table where connected systems and generated data are analyzed locally, or in the cloud, returning to decision makers the information they need, when they need it and in a fully customisable and easy-to-read interface.

Applications – IoT In Mining Industry

For example, in the mining industry, the technology can optimize operations and reduce risk. It can be used to monitor operations and videos, estimate the traffic going underground in the mines, and help with sub-systems management. Advanced video surveillance solutions, powered by the Internet of Things, can be used to read sensors and integrate with them. Thus, IoT can provide an array of connected sensors to businesses, which will help reduce the points of failure. With the deployment of IoT, 10-25% of operating costs can be reduced, like those associated with people and vehicle counting, and temperature and gas sensing.IoT can also help in the reduction of costs involved in the special care that has to be taken with monitoring and managing operations around inflammable gases. With smart surveillance and sensing systems, cameras can be programmed to trigger notifications. This can help businesses be better prepared and allocate resources strategically. Another direct application would be to help with managing the airflow in mines. There is also a risk of loss of lives, when it comes to mining operations, and this can be prevented with smart sensor systems. Connected sensing systems and smart video surveillance support with a predictive analytics component can help businesses predict hazards and take corrective actions in real time.

Smart Surveillance In Aviation Industry

Another industry that can benefit greatly from IoT is aviation. An airbus A380-1000, expected to be ready in 2020, will have 10,000 sensors per wing. An aircraft of this size is estimated to generate 8 Terabytes of data per day, which can be gathered and analyzed. Also, the aviation sector sees 35 million departures per year and, while there is surveillance data, nobody is analyzing these sensors. So, the opportunity in the aviation industry is huge. Security vulnerabilities are a major cause of concern for this industry, and this is where a smart video surveillance and sensory system can be helpful. By analyzing connected sensors and learning from the vast amounts of data generated, air travel can be made safer.

                                                         DISCUSSION

This survey intended to give an overview of the current trends in IoT security research. At the same time, this survey presented some attack vectors and challenges to IoT security. High quality papers from Web of Knowledge were reviewed and categorized into by their objectives, methods used in the research, and the simulation tools used in order to simulate or validate the results. It was found that other than the simulation tools and modeller, the availability of the platform to validate the security protocol will help in producing a novel IoT security protocol. Hence, there is no doubt that the rapid progress of research in IoT security is supported by the availability of simulation tools and IoT modellers. There have been real catastrophic events resulting from attackers using insecure devices as “thingbots” to attack the IoT network. This is strong evidence that the security of the IoT is of pressing concern. It is also assumed that the IoT will remain a target and attack vector for years to come. This is due to the increasing number of IoT devices, the heterogeneity of the protocols used in the IoT, and the minimal or default security measures embedded in the devices by the manufacturers. Clearly, cyber (IT) security, such as authentication, encryption, and firewalls, should be implemented as security measures in the IoT. But this is not sufficient. The interaction and integration between physical and cyber systems make the IoT different from the traditional network.

                                                     FUTURE SCOPE 

Internet of Things (IoT) is an escalating trend in today's world, and has proved to be a game changer in the field of technology. More and more sensors and devices are being connected together to develop new systems to solve real world problems. With the increase in technology and automation, security has become a major concern. The first line of defense for any property is always a security system, which alerts the owners regarding intrusion in real time. Currently, there exist multiple security systems, which make use of various motion sensors to detect any motion and notify the owner about the intrusion. However, most of these systems do not provide the features of zone barriers, facial recognition, remote camera surveillance and power failure detection, combined with ease of use, economic viability and power efficiency. The main objective of the proposed architecture is to overcome all these problems by developing a smart security and surveillance system which makes use of multiple ultrasonic sensors to detect intrusion attempts on the property of the owner, in order to notify them of the presence of an unauthorized person. Also, the system provides a warning to the person who has intentionally or unintentionally entered the property, so that they can step back in time, without triggering any alarm. With the help of a remote camera surveillance feature, the owner can monitor the surroundings of their property remotely. This system will issue an alert to the owner in case of a power failure as well. This system provides face recognition as an authentication procedure, in order to allow the valid entrants to enter into their property. All these features combined, create a flexible and reliable security system, which can be used in various properties, such as homes, offices, museums and so on.

                                                          CONCLUSION 

By harnessing the power of IoT for your security and surveillance solutions, you enable building owners, organization managers, and security professionals to:

Manage and control surveillance devices remotely to monitor all aspects of a facility.

Make smarter decisions about the best course of action to take based on real-time security conditions.

Determine when there is a false alarm without having to physically inspect the location or unnecessarily dispatch law enforcement.

Collect and analyze data to make important improvements to security processes and systems.

Perhaps the greatest benefit of using IoT solutions for your security system is the ability to prevent the loss of critical assets. IoT security solutions allow organizations to

Gain greater visibility over who enters and leaves a facility in real-time.

Consistently and securely monitor facility conditions from any location with Wi-Fi access.

Act quickly on important security alerts delivered right to their mobile device.

IoT makes it possible to gain greater visibility over your assets to improve security and prevent critical loss through real-time surveillance. Telit enables integrated wireless IoT security and surveillance solutions for security service providers, building owners, public organizations, and cities that want to build effective and secure security systems.

Author:

Jai Vardhan Singh Rathore, Anjali kale, Prathmesh Jadhav, Vaishnavi Jadhav  

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BLIIoT Industrial High-Speed Bus Protocol Distributed I/O System BL21X series

Support Industrial Bus protocol PROFINET, EtherCAT, Ethernet/IP etc., The IO Coupler comes with 2*RJ45 and 1*RS485, Data can be quickly collected at the local coupler without polling through the IO backplane, improving the collection speed. Adopting a pluggable terminal block structure, it is easy to maintain and install quickly, reducing costs.

Astronomers  wireless  Measure Precise Rotation Pattern of Sun-Like Stars

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Sun-like stars rotate differentially, with the equator rotating faster than the higher latitudes. The blue arrows in the figure represent rotation speed. Differential rotation is thought to be an essential ingredient for generating magnetic activity and starspots. MPI for Solar System Research/MarkGarlick

Researchers at NYU Abu Dhabi reveal that sun-like stars rotate up to two and a half times faster at the equator than at higher latitudes, a finding that challenges current science on how stars rotate.

Until now, little was known about the precise rotational patterns of Sun-like stars, only that the equator spins faster than at higher latitudes, similar to the Sun.

Scientists at the NYU Abu Dhabi Center for Space Science used observations from NASA’s Kepler mission and asteroseismology — the study of sound waves traveling inside stars — to determine with precision how Sun-like stars rotate, which no other scientif m2m communication  ic method has been able to achieve.

Their study found that Sun-like stars, characterized as being like the Sun in mass and age, do indeed rotate in a similar manner as the Sun in that their equatorial regions rotate more rapidly than at mid- to high latitudes. But there’s a key difference.

The equator of the Sun rotates about 10 percent faster than its mid latitudes, while equators of Sun-like stars spin up to two and a half times faster than their mid latitudes.

“This is very unexpected, and challenges current numerical simulations, which suggest that stars like these should not be able to sustain differential rotation of this magnitude,” said Othman Benomar, research associate at the NYU Abu Dhabi Center for Space Science and lead author of the study published in Science.

“Understanding differential rotation — how fast one part of a star spins compared to the rest — is not only important for a complete understanding of how a star works, it will help us gain deeper insights about their magnetic fields,” explained Katepalli Sreenivasan, principal investigator of the NYU Abu Dhabi Center for Space Science.

Magn Industrial LTE Router  etic fields on the Sun have been known to cause enormous solar storms that frequently disrupt orbiting space satellites and have knocked out power grids on Earth.

Scientists agree that the rotation of the Sun plays a crucial role in the generation of the solar magnetic field, but the exact details still remain a mystery, despite the Sun having been observed and studied in great detail.

Sreenivasan added, “learning more about how stars rotate and generate their own magnetic fields could help us gain further insight into the solar dynamo, the physical process that generates the Sun’s magnetic field.”

Publication: O. Benomar, et al., “Asteroseismic detection of latitudinal differential rotation in 13 Sun-like stars,” substation monitoring   Science 21 Sep 2018: Vol. 361, Issue 6408, pp. 1231-1234; DOI: 10.1126/science.aao6571

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BLIIoT Air Compressor Remote Monitoring Solution

Background

As a large mechanical equipment, air compressors will generate a lot of after-sales maintenance and troubleshooting needs during long-term use. High power consumption and maintenance costs amplify the impact of failures, which can result in significant losses through delayed repairs and extended downtime.

By making air compressors IoT-enabled, maintenance personnel can remotely monitor compressor operation, detect abnormalities in a timely manner and proactively solve problems. This strategy minimizes downtime-related losses, enriches customer service, and enhances the overall value proposition.

Air compressor monitoring requirements

Real-Time Monitoring and Remote Control

Through real-time collection of key parameters such as temperature, pressure, and rotational speed of the air compressor. Allows remote control to adjust parameters and optimize production processes.

Troubleshooting and Predictive Maintenance

Analyze collected data and diagnose potential machine failures, issuing timely alerts to prevent production interruptions and equipment damage.

Data Analysis and Reporting

Advanced data analytics platforms are required to process, analyze and visualize machine operation data. It should support report and chart generation, allowing customers to monitor production efficiency, quality metrics, equipment utilization and drive continuous improvement.

Application of RTU S275 in Remote Monitoring of Air Compressors

Data collection and monitoring

Through RTU S275, we can easily configure oil temperature and lubricant level sensors to monitor key parameters of the air compressor in real time. The equipment provides data storage and historical recording functions to ensure the traceability of production data.

Air compressor controller connection

RTU S275 can establish a connection with the air compressor controller to realize real-time monitoring and remote control of the air compressor status. In this way, operators can adjust operating parameters in a timely manner to optimize production efficiency.

4G network transmission

The device supports 4G network communication and transmits the collected data to the remote management platform in a dedicated protocol format. This ensures efficient transmission and real-time performance of data.

Remote visualization and analysis

The remote management platform receives, parses and stores data transmitted through RTU S275, providing customers with a convenient way to view, count and analyze data anytime and anywhere through a computer or mobile phone. This provides more intuitive and real-time data support for production management.

Security

To ensure the security of data transmission and storage, RTU S275 provides multiple security measures, including data encryption and authentication. These measures help prevent unauthorized access and ensure data integrity.

In conclusion

RTU S275 provides an intelligent solution for remote monitoring of air compressors. Its powerful functions and flexible configuration make it suitable for various industrial environments. Through real-time monitoring and remote control, RTU S275 not only improves the safety and reliability of the air compressor system, but also reduces maintenance costs and production risks.

More information about BLIIoT Remote Monitoring RTU Gateway S275 : https://www.bliiot.com/m2m-rtu-p00175p1.html

Are There Any Security Concerns When Using Lora Modules?

LoRa (Long Range) is a wireless communication technology that is widely used for IoT (Internet of Things) and M2M (machine-to-machine) applications, such as remote monitoring, automation, and asset tracking. 

LoRa technology is based on spread spectrum modulation, which allows for long-range communication and low power consumption. However, as with any wireless communication technology, there are security concerns that should be considered when using LoRa modules.

One of the main security concerns with LoRa is the potential for unauthorized access to the network. LoRa networks rely on a star topology, where all devices communicate with a central gateway. This central gateway is responsible for routing traffic to the internet. If an attacker can gain access to the gateway, they can potentially intercept or manipulate data from all devices on the network. 

Therefore, it is important to secure the gateway with a strong password and to use encryption to protect data in transit.

Another security concern is the possibility of man-in-the-middle (MitM) attacks. MitM attacks occur when an attacker intercepts and alters data in transit between two devices. 

To mitigate this risk, LoRa networks can use Advanced Encryption Standard (AES) encryption to protect data in transit. Additionally, it is important to ensure that devices are properly authenticated before allowing them to join the network.

Lastly, it is important to keep the devices and their firmware up-to-date to protect against known vulnerabilities. Many devices have vulnerabilities that can be easily exploited by attackers, which can lead to unauthorized access to the network.

In conclusion, while LoRa technology offers many benefits, it is important to consider the security risks and take appropriate measures to protect the network and its data. This can include using encryption, authenticating devices, and keeping them up-to-date.

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