Coming soon: cloud-native IoT non-terrestrial network connectivity anywhere.

                                              Soracom has partnered with non-terrestrial network (NTN) service operator Skylo Technologies, giving customers building IoT solutions and M2M devices access to Skylo's direct-to-device 3GPP NTN connectivity, along with the advanced capability of Soracom’s fully-virtualised cellular platform.

The combination of NTN-based NB-IoT connectivity and cloud-based IoT network management represents the next generation of IoT connectivity: highly available, highly affordable, ubiquitous, and deeply integrated with the hyperscale cloud platforms that serve as the backbone of today’s IoT.

Soracom’s fully virtualised global platform provides full MVNO capability paired with powerful connectivity management tools.

Skylo's satellite NTN lets chipsets, modems, modules, and devices designed for terrestrial networks to connect via existing satellites using the global 3GPP Release 17 standard.

While the network is grounded in 3GPP specifications, much of the development of the network operates on what Skylo refers to as the “Standards Plus” approach.

Skylo’s engineers add additional technical specifications to improve the functionality, interoperability, and ubiquity of the satellite-based network over and above the 3GPP standards, delivering an exceptional user experience.

In combining Soracom protocol conversion and authentication offloading features, the customer can also minimise the amount of data transmitted over the satellite link while maintaining integration with a cloud service of their choice.

"Combining breakthrough NTN NB-IoT network, we can enable customers to add satellite coverage to their existing hardware with minimal data overhead for hyperscaler cloud integrations," said Kenta Yasukawa, CTO and Co-Founder of Soracom.

On the partnership, Dr. Andrew Nuttall, CTO and Co-Founder of Skylo, says the aim is to empower businesses and industries to unlock the full potential of IoT, regardless of their location or infrastructure constraints, enabling real-time data access, monitoring, and control in areas not currently served by cellular connectivity.”

LINK:  https://iot-conferences.sciencefather.com/

FOR ENQUIRES: iot@sciencefather.com

VISIT OUR WEBSITE:

                    Abstract Submission:   https://x-i.me/sacon

                    Conference Reg:          https://x-i.me/sareg1

                    Award Nomination:     https://x-i.me/iotnom

                    Award Reg:                   https://x-i.me/sares2

                        Member Nomination:  https://x-i.me/iotmem  

#internet#technology#automation#cloudcomputing#edgecomputing#protocals#dishwasher#5gNetworks#4gNetwork#technology conferences# 

Unlocking the Potential of IoT with LoRa Technology.

IoT and LoRa

LoRa technology has emerged as a transformative force in the realm of IoT (Internet of Things) connectivity. It revolutionizes the way IoT devices communicate with each other, enabling long-distance communication while consuming minimal power. By utilizing unlicensed sub-gigahertz frequency bands, LoRa technology offers an affordable and efficient solution for IoT connectivity, making it a popular choice for numerous IoT applications across industries.

Communication Capability

One of the standout features of LoRa technology is its exceptional long-range communication capability. LoRa devices can transmit data over remarkable distances, reaching up to ten kilometers in rural areas and several kilometers in urban environments.

This extensive coverage makes it an ideal choice for applications that require wide-area connectivity, such as smart cities, precision agriculture, environmental monitoring, and industrial IoT. Whether it’s monitoring sensors spread across vast agricultural fields or connecting devices in a metropolitan area, LoRa technology excels in providing reliable long-range communication.

Scalability

Scalability is another key advantage offered by LoRa technology. It empowers enterprises to effortlessly implement large-scale IoT networks, accommodating the growing demand for interconnected devices. With the capability to support thousands of devices on a single LoRa gateway, businesses can seamlessly expand their IoT infrastructure.

This scalability feature not only facilitates efficient device management but also enables businesses to effortlessly scale their operations across comprehensive IoT ecosystems. By harnessing the power of LoRa technology, organizations can maximize their connectivity potential and unlock new opportunities for innovation, productivity, and cost-effectiveness.

Low Power Consumption

Furthermore, the low power consumption of LoRa devices is a significant benefit in IoT deployments. LoRa technology excels in applications that require long-term monitoring, such as asset tracking, smart metering, and environmental sensing.

Due to its efficient power usage, LoRa devices can operate on batteries for extended periods, sometimes lasting multiple years. This extended battery life not only reduces the maintenance and operational costs associated with frequent battery replacements but also minimizes the environmental impact of IoT devices.

Reliability

Reliability is another crucial aspect where LoRa technology shines. It ensures robust and consistent connectivity between devices, even in challenging environments or areas with weak signal coverage. This reliability is essential for mission-critical IoT applications where uninterrupted data transmission is paramount for real-time decision-making and operational efficiency.

Given its numerous advantages and widespread adoption, LoRa technology has become the preferred choice for IoT sensors across a wide range of industries.

In conclusion, LoRa technology has revolutionized IoT connectivity, offering exceptional long-range communication, low power consumption, scalability, and reliability. Its affordability and versatility make it an attractive choice for a broad spectrum of IoT applications.

With its remarkable performance, widespread adoption, continuous innovation, and transformative potential, LoRa technology continues to shape the future of interconnected devices and intelligent systems, driving the evolution of IoT connectivity and enabling a world of limitless possibilities for a connected and digitally empowered future.

LINK:  https://iot-conferences.sciencefather.com/

FOR ENQUIRES: iot@sciencefather.com

VISIT OUR WEBSITE:

                    Abstract Submission:   https://x-i.me/sacon

                    Conference Reg:          https://x-i.me/sareg1

                     Award Nomination:     https://x-i.me/iotnom

                     Award Reg:                   https://x-i.me/sares2

                         Member Nomination:  https://x-i.me/iotmem  

#internet#technology#automation#cloudcomputing#edgecomputing#protocals#dishwasher#5gNetworks#4gNetwork#technology conferences# 

Top 10 Emerging Trends in The IoT Industry.

 These are the most recent IoT trends and major forecasts for how the IoT will drive digital change

The Internet of Things, in which machine-based intelligence, monitoring, and connection are incorporated into an increasing number of consumer, commercial, and civic products and systems, is having a greater effect on our lives and work.

1. IoT supply chain issues: During the pandemic, certain civic IoT investments were delayed, while chip shortages caused by plant shutdowns and supply chain issues rendered IoT technology inaccessible in several businesses, including the automobile sector.

2. More AI support for IoT data analytics: AI software methods and technology for training these models have advanced significantly. Several businesses are attempting to speed up the rate at which IoT-derived data can be evaluated and transformed into usable insights in data centers and at the edge.

3. Increased Industrial IoT Use Cases: According to a recent IEEE poll, industrial IoT will be one of the most significant technological sectors in 2023. The rise this year was mainly due to personnel shortages and infection worries during the outbreak. Increased monitoring and local intelligence may be combined with robotics and automation in IoT-enabled industries.

4. More Widespread Connectivity For IoT Devices: According to IoT Analytics, the number of linked IoT devices will increase by 18% to 14.4 billion by 2023, and this figure might rise to 27 billion by 2025. The growing replacement of 2G/3G wireless networks with 4G/5G networks is one of the developments that will permit this rise in 2023.

5. Lower Costs for IoT Product Components: Another facilitator of IoT development in 2023 will be the eventual easing of numerous chip shortages as new manufacturing ramps up, but maybe also as demand falls. While chip shortages are expected until 2024, falling demand owing to financial instability has led prices for various chips, including dynamic RAM (DRAM) and NAND flash, to fall.

6. New Technological Developments: Several new technology advances are being drawn to IoT, which will fuel growth in 2023 and beyond. Changes in computer architectures, are fueled in part by advances in storage and memory techniques.

7. System Disaggregation Enables More Efficient Data Processing: The disaggregation of traditional data center servers and the creation of virtual computing systems allow for more efficient data processing and lower power usage. Most of the data handled in data centers comes from IoT applications, and as IoT develops, so will the amount of data processed.

8. New Chip Design And Standards: Chiplets divide several standard CPU tasks into tiny chips that are linked together with high-speed interconnects on a compact package. In 2022, a new standard called Universal Chiplet Interconnect Express (UCIe) will be developed, allowing specialized chips from many manufacturers to be coupled in a small package.

9. Emerging Non-Volatile Or Persistent Memory Technologies For IoT: Reducing pricing for DRAM, NAND flash, and other essential semiconductors for IoT devices, as well as increasing the density of these memory devices, will reduce costs while enhancing device capabilities. Non-volatile or persistent memory technologies, in addition to regular memory technologies, are beginning to appear in IoT devices.

10. AI-Enabled IoT Applications: According to statistics, 64 billion IoT devices are expected by 2025. Artificial intelligence and the Internet of Things are typically at the top of the list when it comes to the most recent IT sector innovations. It’s no wonder that these technologies work so effectively together. Traditional industrial and business solutions have been transformed by the team.

LINK:  https://iot-conferences.sciencefather.com/

FOR ENQUIRES: iot@sciencefather.com

VISIT OUR WEBSITE:

                   Abstract Submission:   https://x-i.me/sacon

                   Conference Reg:          https://x-i.me/sareg1

                     Award Nomination:     https://x-i.me/iotnom

                     Award Reg:                   https://x-i.me/sares2

                         Member Nomination:  https://x-i.me/iotmem  

#internet#technology#automation#cloudcomputing#edgecomputing#protocals#dishwasher#5gNetworks#4gNetwork#technology conferences# 

SAS India and Sir Padampat Singhania University Collaborate to Launch Full-Time Course in Business Analytics.

                                   SAS India has announced its association with Sir Padampat Singhania University (SPSU) for a two-year full- time Master of Business Administration (MBA) in Analytics program. 

The core objective of this program is to prepare future business leaders by developing skills in data-driven decision making, financial planning, quantitative analysis, policy formulation, interpersonal relationships, as well as an understanding of the emerging global economy. The program focuses on developing business foundations and then applying this to business problems in functional areas. The program will impart SAS skills in programming, data integration, visual analytics and machine learning along with SAS international certification badges.

We aim to nurture data-driven business leaders and managers through this collaboration and equip them with skills that will be increasingly required to operate in evolving digital economy. Furthermore, it will enable students unlock the potential of analytics by earning global certifications and being future-ready through this unique industry-academia collaboration,” said Dr. Padmakali Banerjee, Vice Chancellor and President, Sir Padampat Singhania University Rajasthan, India.

“The jobs of the future will require managers to be well versed with Data Analytics and Artificial Intelligence to operate in an increasingly digital economy. It is no surprise that the demand for these skills is greater than the ability to fulfil the requirements. We are delighted that SPSU University has partnered with SAS to provide the right set of skills in analytics for students enrolling into managerial courses that will ultimately prepare them for a promising future, said Bhuvan Nijhawan, Senior Director, Education, SAS Asia Pacific.

LINK:  https://iot-conferences.sciencefather.com/

FOR ENQUIRES: iot@sciencefather.com

VISIT OUR WEBSITE:

                   Abstract Submission:   https://x-i.me/sacon

                   Conference Reg:          https://x-i.me/sareg1

                    Award Nomination:     https://x-i.me/iotnom

                    Award Reg:                   https://x-i.me/sares2

                        Member Nomination:  https://x-i.me/iotmem  

#internet#technology#automation#cloudcomputing#edgecomputing#protocals#dishwasher#5gNetworks#4gNetwork#technology conferences# 

Global IoT connectivity revenues continue to surge.

 According to a report by IoT market research firm Berg Insight, global IoT connectivity revenues are continuing to surge.

The researchers note that revenues increased by 24 percent in 2022 to reach $13.9B (£9.37B) in 2022. The decline in global Average Revenue Per User (ARPU) also decelerated and dropped by just one percent to €0.49 (£0.33).

IoT connectivity revenues typically account for around two percent of the total revenues for the largest mobile operator groups, demonstrating the potential for further growth in this sector.

Berg Insight’s projections for the future are equally promising, with an estimated 5.3 billion IoT devices expected to be connected to cellular networks worldwide by 2027, generating annual connectivity revenues of $27.6B (£18.57B).

One of the key highlights of the report was the significant presence of the top ten mobile operators in the cellular IoT market. At the end of 2022, they reported a combined active base of 2.3 billion cellular IoT connections, constituting a staggering 87 percent of the total 2.7 billion connections globally.

China Mobile emerged as the leading provider of cellular IoT connectivity services with a whopping 1.06 billion cellular IoT connections. China Telecom and China Unicom secured second and third positions, with 407 million and 390 million connections, respectively.

Vodafone ranked fourth with 160 million connections and was first among Western operators. AT&T closely followed in fifth place with 107 million connections. Verizon, Deutsche Telekom, and Telefónica, were reported as providing in the range of 36-57 million cellular IoT connections. Rounding out the top ten were KDDI and Orange, each with approximately 30 million connections.

Year-on-year growth rates for these leading operators ranged from 1-37 percent.

In Western markets, IoT managed service providers played a pivotal role in the ecosystem. Most of these providers operate as full Mobile Virtual Network Operators (MVNOs), offering IoT connectivity services based on a combination of roaming and local access agreements, and often providing value-added services targeted at specific vertical segments.

Notable examples include Velos IoT, Aeris, KORE Wireless, 1NCE, and Wireless Logic. These IoT managed service providers managed more than 150 million cellular IoT connections by the end of 2022, with a total annual revenue of approximately $1.93B (£1.3B).

LINK:  https://iot-conferences.sciencefather.com/

FOR ENQUIRES: iot@sciencefather.com

VISIT OUR WEBSITE:

                    Abstract Submission:   https://x-i.me/sacon

                    Conference Reg:          https://x-i.me/sareg1

                    Award Nomination:     https://x-i.me/iotnom

                    Award Reg:                   https://x-i.me/sares2

                    Member Nomination:  https://x-i.me/iotmem  

#internet#technology#automation#cloudcomputing#edgecomputing#protocals#dishwasher#5gNetworks#4gNetwork#technology conferences# 

The Top IoT Startups to Look out for in 2023 are Redefining Connectivity and Automation

In 2023, the Internet of Things (IoT) landscape is bustling with innovative startups redefining connectivity and automation. IoT startups in 2023 are using advanced tech to create smart devices, enhance efficiency, and improve lives. From smart homes to healthcare solutions, they’re revolutionizing industries and our way of life.

In the fast-paced world of technology, the Internet of Things (IoT) continues revolutionizing how we live and work. As we step into 2023, the potential of IoT is reaching new heights, and many innovative startups are emerging to capitalize on this trend. These startups are pushing the boundaries of IoT applications, delivering groundbreaking solutions across various industries. From smart cities to healthcare, manufacturing to agriculture, they harness the power of interconnected devices, sensors, and data analytics to transform our daily lives. In this article, we will explore the top 5 IoT startups to watch out for in 2023, as they are poised to significantly impact and reshape the future of IoT innovation.

Numerous startups have emerged to capitalize on this transformative trend as the Internet of Things (IoT) continues to reshape industries and drive technological advancements. These companies are pushing the boundaries of IoT innovation and offering unique solutions in device security, workplace management, energy efficiency, traffic optimization, and sleep technology.

1. Armis Security:

Armis Security is a leading provider of agentless device security solutions. The company secures connected devices across various industries, including finance, healthcare, and retail. In 2022, Armis launched a groundbreaking solution that addresses the security challenges associated with connected devices on cellular networks. With the increasing prevalence of cyber threats targeting IoT devices, Armis’s agentless cybersecurity approach is gaining significant relevance. Their innovative solutions and commitment to securing IoT ecosystems make them a key player in the IoT security landscape.

2. Smarten Spaces:

Smarten Spaces is an IoT company that specializes in providing hybrid workplace platforms. Smarten Spaces offers a comprehensive solution to manage and optimize the new workplace setup as businesses transition to hybrid work models. Their platform includes features such as desk management and meeting room booking management, enabling efficient utilization of office spaces. With the rise of remote work and the growing demand for flexible work environments, Smarten Spaces is well-positioned to capitalize on the evolving needs of modern workplaces.

LINK:  https://iot-conferences.sciencefather.com/

FOR ENQUIRES: iot@sciencefather.com

VISIT OUR WEBSITE:

                    Abstract Submission:   https://x-i.me/sacon

                    Conference Reg:          https://x-i.me/sareg1

                    Award Nomination:     https://x-i.me/iotnom

                    Award Reg:                   https://x-i.me/sares2

                    Member Nomination:  https://x-i.me/iotmem  

#internet#technology#automation#cloudcomputing#edgecomputing#protocals#dishwasher#5gNetworks#4gNetwork#technology conferences#