Technology
5G Testing Equipment Market to Grow by USD 605.76 Million (2024-2028), Rising Demand for Better Network Capacity Boosts Growth, with AI Redefining Market Landscape – Technavio
Published
1 year agoon
By
NEW YORK, Jan. 31, 2025 /PRNewswire/ — Report with market evolution powered by AI – The global 5g testing equipment market size is estimated to grow by USD 605.76 million from 2024-2028, according to Technavio. The market is estimated to grow at a CAGR of almost 8.43% during the forecast period. Increasing demand for improved network capacity to access connected services is driving market growth, with a trend towards software-defined testing for 5g equipment. However, high deployment cost of 5g test equipment poses a challenge.Key market players include Accedian; Accuver; Anokiwave, Inc.; Anritsu; Aritza Networks, Inc.; Cohu, Inc.; Consultix Wireless; Emite; Exfo, Inc.; Gao Tek & GAO Group, Inc; GI Communications, Inc.; Innowireless Co Ltd.; Keysight Technologies; Macom; Marvin Test Solutions, Inc.; National Instruments Corp.; Pctel, Inc.; Rohde & Schwarz; Simnovus; Spirent Communications
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5G Testing Equipment Market Scope
Report Coverage
Details
Base year
2023
Historic period
2018 – 2022
Forecast period
2024-2028
Growth momentum & CAGR
Accelerate at a CAGR of 8.43%
Market growth 2024-2028
USD 605.76 million
Market structure
Fragmented
YoY growth 2022-2023 (%)
7.19
Regional analysis
North America, Europe, APAC, Middle East and Africa, and South America
Performing market contribution
APAC at 31%
Key countries
China, South Korea, Germany, US, and Canada
Key companies profiled
Accedian; Accuver; Anokiwave, Inc.; Anritsu; Aritza Networks, Inc.; Cohu, Inc.; Consultix Wireless; Emite; Exfo, Inc.; Gao Tek & GAO Group, Inc; GI Communications, Inc.; Innowireless Co Ltd.; Keysight Technologies; Macom; Marvin Test Solutions, Inc.; National Instruments Corp.; Pctel, Inc.; Rohde & Schwarz; Simnovus; Spirent Communications
The 5G testing equipment market is experiencing significant growth due to the widespread deployment of 5G device infrastructure. Electric signals and spectrums are crucial for 5G’s high connectivity, low latency, and quick communication. IoT, connected devices, large data centers, automobiles, entertainment, healthcare, and security all benefit from 5G’s user-oriented features. However, challenges such as performance issues, optimization, and 5G traffic require specialized testing equipment. IDMs and ODMs, network operators, and service providers invest in 5G testing tools like oscilloscopes, signal generators, and spectrum analyzers. Massive MIMO, mmWave, Channel Sounding, and reprogrammable instrument tools are essential for 5G testing. Prototyping and testing costs are key considerations for enterprises during digitalization and mobile communications. 5G challenges include millimeter wave usage, multimode integration, beamforming, testing process, and testing costs. Base stations, antennas, network equipment, and spectrum analyzers are vital for optimizing network performance. Software-defined testing and test programs help address 5G’s complexities. 5G’s impact extends to autonomous vehicles, connected car applications, smart cities, intelligent transportation systems, public safety applications, energy management, and heterogeneous architecture. The digital divide and facilities and services require ongoing testing to ensure secure wireless connections and data transfer for mobile phones, wearables, connected cars, and consumer electronic devices.
The test and measurement industry is shifting towards software-defined solutions for 5G equipment testing. Traditional benchtop instruments have been replaced with flexible and efficient software modules. Engineers can now develop test programs for various 5G technologies and standards swiftly using these software modules. Adaptable test sets that incorporate new 5G specifications through software accelerate 5G prototyping and deployment. A software-defined approach future-proofs test programs against future 5G challenges. For instance, 5G new radio (NR) prototyping is executed via reprogrammable instrumentation tools for massive MIMO, mmWave, channel sounding, and waveform development.
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The 5G testing equipment market is witnessing significant growth due to the widespread deployment of 5G device infrastructure. With the increasing use of electric signals across various industries such as IoT, connected devices, large data centers, automobiles, entertainment, healthcare, and security, the need for high connectivity, low latency, and quick communication is crucial. However, 5G testing poses challenges due to the complexities of 5G networks, including the use of multiple frequency bands, millimeter wave usage, and multimode integration. Manufacturers of 5G testing equipment are focusing on software-defined testing approaches to address these challenges. Test programs for 5G devices include prototyping, Massive MIMO, mmWave, Channel Sounding, and reprogrammable instrument tools. The cost of testing is a concern for enterprises, network operators, and service providers, as customer spending on digitalization and mobile communications continues to grow. 5G testing equipment includes oscilloscopes, signal generators, and spectrum analyzers. Specialized testing equipment such as network analyzers, IDMs and ODMs, and base station testers are also essential. Performance issues, optimization, and interference are key areas of focus for testing, along with antenna design and signal propagation. The challenges of 5G testing extend to connected car applications, smart cities, and public safety applications. The digital divide and the need for facilities and services in underserved areas also present testing challenges. Network slicing, small cells, and network equipment are critical components of 5G networks, and testing their capabilities is essential for ensuring high-quality user experiences. In conclusion, the 5G testing equipment market is a dynamic and evolving space, with a focus on addressing the unique challenges of 5G networks and devices. Manufacturers must continue to innovate and adapt to meet the demands of enterprises, network operators, and service providers for reliable and efficient testing solutions.The global 5G test equipment market faces several challenges due to the high acquisition and installation costs associated with 5G technology. Small cell networks require significant investment, and the security of remotely placed outdoor power systems is a concern. Regulations set by telecommunication standard organizations must be adhered to, adding to the expenses. Competitive pricing pressure from customers has impacted profit margins, with data tariffs similar to 3G and LTE. The release of new frequency spectrum also comes with a high cost. These factors may hinder the market’s growth.
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This 5g testing equipment market report extensively covers market segmentation by
Application 1.1 Oscilloscopes1.2 Signal analyzers1.3 Signal generators1.4 Network analyzers1.5 OthersEnd-user 2.1 Telecom equipment manufacturers2.2 Original device manufacturers2.3 Telecom service providersGeography 3.1 North America3.2 Europe3.3 APAC3.4 Middle East and Africa3.5 South AmericaRevenue
1.1 Oscilloscopes- The oscilloscopes segment holds the largest share in the global 5G testing equipment market in 2023, accounting for over 50% of the total revenue. Oscilloscopes are essential tools for displaying and analyzing electronic signals’ waveforms. These devices provide valuable insights into signal properties such as amplitude, rise time, frequency, time interval, and distortion. Digital oscilloscopes, which dominate the segment, use an analog-to-digital converter (ADC) to measure 5G signals. Attenuators and vertical amplifiers are employed to prepare the waveform for ADC input. Digital oscilloscopes’ automated incident capturing and storing feature enhances understanding of signal issues. With the anticipated in 5G traffic, demand for oscilloscopes supporting high bandwidth applications will escalate among electronics manufacturers. Market players, including Anritsu and Tektronix, are introducing advanced oscilloscopes to cater to this need. For instance, Anritsu’s BERTWave MP2110A supports 53-Gbaud pulse amplitude modulation (PAM) signals for eCPRI/RoE optical modules testing. Tektronix’s new 2 Series MSO, launched in June 2022, is a portable, lightweight oscilloscope designed for both laboratory and field use. The increasing demand for advanced and efficient oscilloscopes from industries like communication, electronics, semiconductors, and others will further fuel the growth of the oscilloscopes segment in the global 5G testing equipment market. (Word count: 100)
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The 5G testing equipment market is experiencing significant growth due to the widespread deployment of 5G technology and the increasing demand for high-speed, low-latency connectivity. 5G testing equipment plays a crucial role in ensuring the optimal performance of 5G device infrastructure by testing electric signals, spectra, and bandwidth. The market includes various types of equipment such as base stations, antennas, network equipment, and specialized testing equipment like spectrum analyzers, signal generators, and channel emulators. 5G testing equipment is essential for IoT, connected devices, large data centers, automobiles, entertainment, healthcare, security, and other industries that require high connectivity, quick communication, and user-oriented experiences. Performance issues and optimization are key challenges in the 5G era, making the testing equipment market an indispensable part of the network ecosystem. 5G testing equipment enables network providers to ensure high-quality user experiences, quick communication, and low latency, especially during emergencies. The market is expected to continue growing as 5G technology becomes more widespread and the demand for high-speed connectivity increases.
The 5G testing equipment market is experiencing significant growth due to the widespread deployment of 5G device infrastructure. Electric signals and spectrums are crucial elements in 5G networks, providing high bandwidth, low latency, and quick communication for connected devices, large data centers, automobiles, entertainment, healthcare, security, and more. The user-oriented nature of 5G requires high connectivity and advanced multimedia applications, leading to increased data traffic and demand for 5G testing equipment. Challenges in 5G testing include optimizing network performance, managing interference, and designing antennas for millimeter wave usage and Massive MIMO. Testing processes involve IDMs and ODMs, network operators, and service providers, utilizing specialized equipment such as oscilloscopes, signal generators, spectrum analyzers, and channel emulators. 5G testing equipment is essential for prototyping, software-defined testing, and test programs. The digitalization of mobile communications and wireless connections necessitates a software-defined approach to testing, addressing the digital divide and enabling the deployment of facilities and services for various industries. The 5G market encompasses various applications, including autonomous vehicles, connected car applications, smart cities, intelligent transportation systems, public safety applications, energy management, and heterogeneous architecture with multiple frequency bands and network slicing. Signal propagation and interference are critical factors in 5G testing, along with optimization and base station testing. The 5G testing market is expected to grow significantly due to customer spending on digitalization, the increasing number of connected devices, and the need for secure wireless connections. The testing costs for 5G equipment are a concern, but the benefits of high-speed connectivity, low latency, and advanced multimedia applications outweigh the expenses.
1 Executive Summary
2 Market Landscape
3 Market Sizing
4 Historic Market Size
5 Five Forces Analysis
6 Market Segmentation
ApplicationOscilloscopesSignal AnalyzersSignal GeneratorsNetwork AnalyzersOthersEnd-userTelecom Equipment ManufacturersOriginal Device ManufacturersTelecom Service ProvidersGeographyNorth AmericaEuropeAPACMiddle East And AfricaSouth AmericaRevenue
7 Customer Landscape
8 Geographic Landscape
9 Drivers, Challenges, and Trends
10 Company Landscape
11 Company Analysis
12 Appendix
Technavio is a leading global technology research and advisory company. Their research and analysis focuses on emerging market trends and provides actionable insights to help businesses identify market opportunities and develop effective strategies to optimize their market positions.
With over 500 specialized analysts, Technavio’s report library consists of more than 17,000 reports and counting, covering 800 technologies, spanning across 50 countries. Their client base consists of enterprises of all sizes, including more than 100 Fortune 500 companies. This growing client base relies on Technavio’s comprehensive coverage, extensive research, and actionable market insights to identify opportunities in existing and potential markets and assess their competitive positions within changing market scenarios.
Technavio Research
Jesse Maida
Media & Marketing Executive
US: +1 844 364 1100
UK: +44 203 893 3200
Email: media@technavio.com
Website: www.technavio.com/
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SOURCE Technavio
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Samsung Selects Chandigarh University Student as ‘Punjab AI State Topper’
Published
51 minutes agoon
July 18, 2026By
CU Student Devesh Panwar Wins Rs 1 Lakh Award for Developing AI-Based Document Search System
CHANDIGARH, India, July 18, 2026 /PRNewswire/ — A Bachelor of Computer Applications (BCA) student of Chandigarh University, Devesh Panwar, has been named the “Punjab State Topper” in the Artificial Intelligence (AI) under the Samsung Innovation Campus (SIC) AI Program organised by Samsung in collaboration with Telecom Sector Skill Council (TSSC) and training partner Focal Skill Development (Focalyt) to equip Indian youth with industry-relevant in-demand skills in AI, loT, Big Data, and Coding & Programming, preparing them for future careers.
A final-year student of Bachelor of Computer Applications (BCA) at University Institute of Computing (UIC) of Chandigarh University, Devesh Panwar also won a cash award of Rs 1 lakh along with a laptop, and exclusive Samsung rewards for achieving this remarkable milestone under the Samsung Innovation Campus AI Program.
“Being named ‘AI State Topper’ was a moment of profound pride and validation for me. Hard work, intense technical training and a passion for AI culminated in the immense honor of the Punjab State Topper title. Besides getting access to state-of-the-art tools to fuel my future research and development endeavor, I gained world-class knowledge during the Samsung Innovation Campus (SIC) AI Program. It helped me in gaining hands-on experience and applied AI to solve real-world challenges, especially in aeronautical and technical domains,”
During Samsung Innovation Campus (SIC) AI Program, Devesh and his team worked on innovative AI capstone project which was presented before the jury panel as part of the final assessment.
“Our team developed the advanced AI-powered system AI Research Agent, a Retrieval-Augmented Generation (RAG) platform designed for intelligent querying of private document collections. Organizations, researchers, legal professionals, and HR teams often work with large collections of documents. Traditional search methods rely heavily on keyword matching and require significant manual effort to locate relevant information. The project was developed to address the limitations of traditional document search systems, which often struggle with contextual understanding, retrieval accuracy, learning adaptability, and response speed,” said Devesh.
“The developed system demonstrated significant improvements over traditional document retrieval approaches with faster response generation with integration of modern AI techniques, full-stack development, database systems, and intelligent automation into a single practical solution. By combining modern RAG architecture with innovative retrieval and reasoning mechanisms, this system provides a fast, intelligent, and user-friendly solution for knowledge discovery and resume evaluation. This project not only enhanced our technical expertise in Artificial Intelligence and Full-Stack Development but also strengthened our problem-solving, teamwork, and professional communication skills. It stands as a significant achievement of our Samsung Innovation Campus 2025 journey and reflects our commitment to building impactful AI solutions for real-world challenges,” he added.
Congratulating Devesh Panwar for being named “Punjab State Topper” AI under the Samsung Innovation Campus Samsung Innovation Program, Deepinder Singh Sandhu, Senior Managing Director, Chandigarh University, said, “Devesh’s achievement reflects Chandigarh University’s focus on experiential learning and industry-academia collaboration. Through the Samsung Innovation Campus AI Program, CU students gain practical exposure to AI and building solutions for real-world challenges. This accomplishment reflects not only Devesh’s commitment to excellence but also the growing culture of innovation and industry-oriented learning at Chandigarh University,”.
“Since its inception, Chandigarh University has set benchmarks for world-class education with its dynamic hands-on experiential learning model, industry-aligned programs, dynamic fraternity, state-of-the-art infrastructure facilities and impeccable placements. Samsung Innovation Program is also part of our initiatives to develop a future-ready talent pool equipped with advanced capabilities in AI, loT, Big Data, and Coding and Programming. By bridging the gap between theoretical learning and real-world application, this collaboration helps in providing CU’s computer science and computing students exposure to cutting-edge and emerging technologies. CU’s this partnership with Samsung is focused on building future-ready talent equipped with industry-relevant skills in AI and emerging technologies,” Sandhu said.
He said Chandigarh University’s Institute of Computing (UIC) prepares students for a successful career in computing, to create and disseminate computing knowledge and technology. “Chandigarh University carries a vision of crafting next-gen IT professionals who can take up industry challenges effectively and our Institute of Computing (UIC) prepares students for a successful career in computing, to create and disseminate computing knowledge and technology. UIC’s hands-on approach paves the way for a smooth transition to the workforce after graduation. Our students are equipped with the best knowledge, skills and passion to succeed in any number of computing careers. CU’s Institute of Computing renders cutting-edge education ranging from the expertise in traditional software development -to- modern computing technologies. Fully-equipped industry-sponsored labs, industry-aligned curriculum, and accreditations and validations by top companies such as Intel, Microsoft, Google Android, Red Hat etc. give our students an exclusive edge over others,” the Chandigarh University CMD said.
Sandhu said the latest edition of QS World University Rankings has yet again reaffirmed Chandigarh University global standing as a top educational institution. “Continuing its remarkable rise among the world’s leading higher education institutions, Chandigarh University (CU) has made impressive strides in the latest edition of prestigious QS World University Rankings 2027 by securing an overall world rank of 526, an increase of 49 ranks as compared to 575th rank in QS’ 2026 Rankings. This is for the fifth consecutive year that Chandigarh University’s global rankings have witnessed an impressive surge with CU’s world rank going up by an impressive 274 ranks — from the 800th rank in 2023 to 526th in 2027’s Rankings,”.
“As per the latest QS World University Rankings, with All India Rank of 13 among all universities in the country as compared to 16th rank in 2026’s rankings, Chandigarh University now ranks among the top 1% of universities in India and the top 2% of universities in the World, underscoring its growing reputation as a leading institution of higher learning, both in India and globally,” he added.
About Chandigarh University
Chandigarh University is a NAAC A+ Grade University and QS World Ranked University. This autonomous educational institution is approved by UGC and is located near Chandigarh in the state of Punjab. It is the youngest university in India and the only private university in Punjab to be honoured with A+ Grade by NAAC (National Assessment and Accreditation Council). CU offers more than 109 UG and PG programs in the field of engineering, management, pharmacy, law, architecture, journalism, animation, hotel management, commerce, and others. It has been awarded as The University with Best Placements by WCRC.
Website address: https://www.cuchd.in/
View original content to download multimedia:https://www.prnewswire.com/in/news-releases/samsung-selects-chandigarh-university-student-as-punjab-ai-state-topper-302828991.html
Technology
Samsung Selects Chandigarh University Student as ‘Punjab AI State Topper’
Published
51 minutes agoon
July 18, 2026By
CU Student Devesh Panwar Wins Rs 1 Lakh Award for Developing AI-Based Document Search System
CHANDIGARH, India, July 18, 2026 /PRNewswire/ — A Bachelor of Computer Applications (BCA) student of Chandigarh University, Devesh Panwar, has been named the “Punjab State Topper” in the Artificial Intelligence (AI) under the Samsung Innovation Campus (SIC) AI Program organised by Samsung in collaboration with Telecom Sector Skill Council (TSSC) and training partner Focal Skill Development (Focalyt) to equip Indian youth with industry-relevant in-demand skills in AI, loT, Big Data, and Coding & Programming, preparing them for future careers.
A final-year student of Bachelor of Computer Applications (BCA) at University Institute of Computing (UIC) of Chandigarh University, Devesh Panwar also won a cash award of Rs 1 lakh along with a laptop, and exclusive Samsung rewards for achieving this remarkable milestone under the Samsung Innovation Campus AI Program.
“Being named ‘AI State Topper’ was a moment of profound pride and validation for me. Hard work, intense technical training and a passion for AI culminated in the immense honor of the Punjab State Topper title. Besides getting access to state-of-the-art tools to fuel my future research and development endeavor, I gained world-class knowledge during the Samsung Innovation Campus (SIC) AI Program. It helped me in gaining hands-on experience and applied AI to solve real-world challenges, especially in aeronautical and technical domains,”
During Samsung Innovation Campus (SIC) AI Program, Devesh and his team worked on innovative AI capstone project which was presented before the jury panel as part of the final assessment.
“Our team developed the advanced AI-powered system AI Research Agent, a Retrieval-Augmented Generation (RAG) platform designed for intelligent querying of private document collections. Organizations, researchers, legal professionals, and HR teams often work with large collections of documents. Traditional search methods rely heavily on keyword matching and require significant manual effort to locate relevant information. The project was developed to address the limitations of traditional document search systems, which often struggle with contextual understanding, retrieval accuracy, learning adaptability, and response speed,” said Devesh.
“The developed system demonstrated significant improvements over traditional document retrieval approaches with faster response generation with integration of modern AI techniques, full-stack development, database systems, and intelligent automation into a single practical solution. By combining modern RAG architecture with innovative retrieval and reasoning mechanisms, this system provides a fast, intelligent, and user-friendly solution for knowledge discovery and resume evaluation. This project not only enhanced our technical expertise in Artificial Intelligence and Full-Stack Development but also strengthened our problem-solving, teamwork, and professional communication skills. It stands as a significant achievement of our Samsung Innovation Campus 2025 journey and reflects our commitment to building impactful AI solutions for real-world challenges,” he added.
Congratulating Devesh Panwar for being named “Punjab State Topper” AI under the Samsung Innovation Campus Samsung Innovation Program, Deepinder Singh Sandhu, Senior Managing Director, Chandigarh University, said, “Devesh’s achievement reflects Chandigarh University’s focus on experiential learning and industry-academia collaboration. Through the Samsung Innovation Campus AI Program, CU students gain practical exposure to AI and building solutions for real-world challenges. This accomplishment reflects not only Devesh’s commitment to excellence but also the growing culture of innovation and industry-oriented learning at Chandigarh University,”.
“Since its inception, Chandigarh University has set benchmarks for world-class education with its dynamic hands-on experiential learning model, industry-aligned programs, dynamic fraternity, state-of-the-art infrastructure facilities and impeccable placements. Samsung Innovation Program is also part of our initiatives to develop a future-ready talent pool equipped with advanced capabilities in AI, loT, Big Data, and Coding and Programming. By bridging the gap between theoretical learning and real-world application, this collaboration helps in providing CU’s computer science and computing students exposure to cutting-edge and emerging technologies. CU’s this partnership with Samsung is focused on building future-ready talent equipped with industry-relevant skills in AI and emerging technologies,” Sandhu said.
He said Chandigarh University’s Institute of Computing (UIC) prepares students for a successful career in computing, to create and disseminate computing knowledge and technology. “Chandigarh University carries a vision of crafting next-gen IT professionals who can take up industry challenges effectively and our Institute of Computing (UIC) prepares students for a successful career in computing, to create and disseminate computing knowledge and technology. UIC’s hands-on approach paves the way for a smooth transition to the workforce after graduation. Our students are equipped with the best knowledge, skills and passion to succeed in any number of computing careers. CU’s Institute of Computing renders cutting-edge education ranging from the expertise in traditional software development -to- modern computing technologies. Fully-equipped industry-sponsored labs, industry-aligned curriculum, and accreditations and validations by top companies such as Intel, Microsoft, Google Android, Red Hat etc. give our students an exclusive edge over others,” the Chandigarh University CMD said.
Sandhu said the latest edition of QS World University Rankings has yet again reaffirmed Chandigarh University global standing as a top educational institution. “Continuing its remarkable rise among the world’s leading higher education institutions, Chandigarh University (CU) has made impressive strides in the latest edition of prestigious QS World University Rankings 2027 by securing an overall world rank of 526, an increase of 49 ranks as compared to 575th rank in QS’ 2026 Rankings. This is for the fifth consecutive year that Chandigarh University’s global rankings have witnessed an impressive surge with CU’s world rank going up by an impressive 274 ranks — from the 800th rank in 2023 to 526th in 2027’s Rankings,”.
“As per the latest QS World University Rankings, with All India Rank of 13 among all universities in the country as compared to 16th rank in 2026’s rankings, Chandigarh University now ranks among the top 1% of universities in India and the top 2% of universities in the World, underscoring its growing reputation as a leading institution of higher learning, both in India and globally,” he added.
About Chandigarh University
Chandigarh University is a NAAC A+ Grade University and QS World Ranked University. This autonomous educational institution is approved by UGC and is located near Chandigarh in the state of Punjab. It is the youngest university in India and the only private university in Punjab to be honoured with A+ Grade by NAAC (National Assessment and Accreditation Council). CU offers more than 109 UG and PG programs in the field of engineering, management, pharmacy, law, architecture, journalism, animation, hotel management, commerce, and others. It has been awarded as The University with Best Placements by WCRC.
Website address: https://www.cuchd.in/
View original content to download multimedia:https://www.prnewswire.com/in/news-releases/samsung-selects-chandigarh-university-student-as-punjab-ai-state-topper-302828991.html
Technology
Black Lake Technologies Shortlisted as SAIL Award TOP30 Finalist and Selected as Global Industrial AI Flagship Case, Showcasing Latest Industrial Agent at WAIC 2026
Published
2 hours agoon
July 18, 2026By
SHANGHAI, July 18, 2026 /PRNewswire/ — The 2026 World Artificial Intelligence Conference (WAIC) opened in Shanghai on July 17. Shanghai Blacklake Technologies Co., Ltd. (“Black Lake”), an industrial AI company, is showcasing a portfolio of industrial AI agents at the conference. The company has also been named to the Top 30 shortlist for the 2026 WAIC Super AI Leader (SAIL) Award and selected as a Trusted Partner under the Global Call for Trusted Partners for Industrial AI in the Global South.
The accreditations highlight Black Lake’s latest progress in bringing AI into critical manufacturing decision-making workflows and deploying industrial AI capabilities on the shop floor around the world.
This year’s conference attracted over 1,100 exhibiting companies and showcased more than 3,000 exhibits, setting a new record for exhibition scale. The conference delivered a clear signal: as artificial intelligence becomes a common priority across global industries, attention is moving beyond model capabilities toward practical applications in real-world operating environments.
Manufacturing provides a particularly demanding test for this transition. Factory operations are governed by multiple constraints, including process specifications, equipment capabilities, material availability, production capacity, delivery schedules and quality requirements. Therefore, AI has to do so much more than simply comprehend information input. It must make reliable judgments within clearly defined business rules and operational constraints.
Black Lake has focused on industrial digitalization and industrial AI for years, developing and deploying AI applications in a range of factory environments.
At WAIC 2026, the company is presenting industrial AI agents covering order splitting and process planning, quotation and pricing, procurement, production scheduling, quality inspection, and order tracking. These applications are designed to move AI beyond an auxiliary role and into critical manufacturing decision-making workflows.
Traditional industrial software is primarily responsible for data recording, digital workflows, and worker coordination. However, critical decisions such as how to split an order, determine pricing, schedule production, and assess quality risks still depend heavily on the experience of engineers and frontline workers.
Industrial AI agents are intended to convert fragmented industrial knowledge and production experience into decision-making capabilities that can be invoked, reused and continuously refined by software systems.
Order decomposition and process planning are representative examples. After receiving an engineering drawing, a factory typically relies on experienced engineers to identify components, materials and dimensions, define the required manufacturing processes and technical specifications, and establish a basis for subsequent quotation and quality inspection.
The process is highly dependent on individual expertise and represents one of the first critical decision points after an order is received.
Black Lake Technologies’ CAD-to-Process Agent can understand product drawings and, taking into account the factory’s equipment capabilities, process requirements, and production practices, rapidly generate process steps along with the corresponding technical requirements. Drawing analysis that once took hours can now be completed in approximately one minute, achieving an accuracy rate of over 95% in real deployment and providing engineers with stable, efficient decision support. Currently, the industrial agents developed by the company cover core processes including design, scheduling, production, and quality inspection, and have entered the stage of large-scale deployment.
Founded in 2016, Black Lake serves nearly 40,000 factories worldwide. Its customers span more than 30 industries, including food and beverage, automotive components and equipment manufacturing.
By working across factory order management, production and fulfillment workflows, Black Lake has accumulated the technical capabilities and industry knowledge required to support decision-making in complex industrial environments.
In April 2026, Black Lake completed a Series D funding round of nearly RMB 1 billion. The company said the proceeds would primarily be used to accelerate the deployment of its industrial AI products and support its international expansion.
AI-related products are becoming a new source of growth for the company. In a recent interview, Black Lake founder and CEO Zhou Yuxiang said that the company had recorded significant growth in AI-related revenue since the beginning of 2026. He also said that manufacturing customers were taking less time to make purchasing decisions for industrial AI agents.
Zhou expects AI adoption among Chinese factories to increase substantially over the next three to four years.
Unlike consumer-facing AI, which is primarily associated with content generation and personal productivity, industrial AI agents can directly affect production costs, capacity utilization, delivery performance, and product quality. Their commercial value therefore depends largely on whether they can perform specific tasks reliably in complex production environments.
During WAIC 2026, Black Lake was named to the Top 30 shortlist for the 2026 Super AI Leader (SAIL) Award. The SAIL Award is one of WAIC’s major awards and recognizes achievements in technological breakthroughs, application innovation, and industrial value.
Black Lake was also selected as a Trusted Partner under UNIDO’s Global Call for Trusted Partners for Industrial AI in the Global South.
The Global Call was launched under the guidance of the United Nations Industrial Development Organization (UNIDO), in partnership with the Shanghai Artificial Intelligence Research Institute, and in connection with the work of UNIDO AIM Global and its Shanghai-based Centre of Excellence.
The initiative aims to build a curated pool of leading partners to co-develop scalable industrial AI solutions and public goods for the Global South.
For Black Lake, the two accreditations underscore the growing importance of reliability, explainability, and scalability in the evaluation of industrial AI, in addition to the capabilities of AI models.
Global expansion will be a major priority in the company’s next phase of development. Black Lake is currently focusing on Southeast Asia, Latin America and Eastern Europe, adapting its industrial AI agents to the industrial structures, production processes and management requirements of different markets.
Although manufacturing operations vary across countries and regions, manufacturers share similar concerns about efficiency, quality, delivery reliability and production flexibility.
Black Lake is transforming industrial AI capabilities that have been validated in complex factory environments into configurable and deployable products. Through these products, the company aims to work with manufacturers worldwide to explore more efficient, flexible and intelligent approaches to production.
SOURCE Black Lake
Samsung Selects Chandigarh University Student as ‘Punjab AI State Topper’
Samsung Selects Chandigarh University Student as ‘Punjab AI State Topper’
Black Lake Technologies Shortlisted as SAIL Award TOP30 Finalist and Selected as Global Industrial AI Flagship Case, Showcasing Latest Industrial Agent at WAIC 2026
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