ANOVAs for CEW weight gain by silk collection date in four populations.

AI-based Cognitive Electronic Warfare (CEW) Market was valued at $0.57 billion in 2024 and is projected to grow at a CAGR of 20.57% to attain $3.7 billion by 2034.

Standard Operating Procedures Manual for the Rochester Police Department - Taser Conducted Electrical Weapons (CEW)

The US Conducted Energy Weapons (CEW) market is experiencing robust growth, projected to reach $657.12 million in 2025 and maintain a Compound Annual Growth Rate (CAGR) of 6.21% from 2025 to 2033. This expansion is driven by increasing demand from law enforcement agencies seeking less-lethal alternatives for crowd control and suspect apprehension. The rising adoption of body-worn cameras, coupled with increased awareness of the need for accountability and transparency in policing, further fuels market growth. Technological advancements, such as improved targeting accuracy and enhanced safety features in CEWs, are also contributing factors. Market segments include various CEW types (e.g., Tasers, stun guns), end-users (law enforcement, military, security personnel), and sales channels (direct sales, distributors). While concerns regarding potential misuse and ethical implications pose some restraints, the overall market outlook remains positive due to consistent technological improvements and growing awareness of the need for effective and safe non-lethal force options. The competitive landscape is characterized by a mix of established players like Axon Enterprise Inc (a dominant player known for its Taser brand) and smaller, specialized manufacturers. These companies are actively engaged in R&D to develop advanced CEW technologies, including improved ergonomics, extended battery life, and data logging capabilities. The market's success hinges on balancing the demand for effective non-lethal tools with stringent regulations and ethical considerations to prevent misuse and ensure responsible deployment of CEWs. Future growth will likely be fueled by the continuous need for safer and more effective crowd control solutions and advancements in CEW technology, alongside a continued focus on responsible use and training. Key drivers for this market are: , Increased Seaborne Threats And Ambiguous Maritime Security Policies; Increasing Adoption Of Security Technologies In Bric Countries. Potential restraints include: , High Risk Rate In Ungoverned Zones; Unstructured Security Standards And Technologies. Notable trends are: Increasing Incidents of Civil Unrest Driving Procurement.

Uncover historical ownership history and changes over time by performing a reverse Whois lookup for the company CEW-Technologies-Inc.

ANOVAs for percentage of CEWs pupated by genotypic entry.

Credit report of Cew contains unique and detailed export import market intelligence with it's phone, email, Linkedin and details of each import and export shipment like product, quantity, price, buyer, supplier names, country and date of shipment.

The U.S. Conducted Energy Weapons (CEW) report provides a detailed analysis of emerging investment pockets, highlighting current and future market trends. It offers strategic insights into capital flows and market shifts, guiding investors toward growth opportunities in key industry segments and regions.

Historical holdings data showing quarterly positions, market values, shares held, and portfolio percentages for CEW held by Ronald Blue Trust Inc from Q3 2022 to Q2 2025

Locations where CEW & TOE values were extracted from the VO model.

Historical ownership data of CEW by OPPENHEIMER & CO INC

AI-powered price forecasts for CEW stock across different timeframes including weekly, monthly, yearly, and multi-year predictions.

Corn earworm (CEW), Helicoverpa zea (Boddie), (Lepidoptera: Noctuidae), is a major insect pest of corn (Zea mays spp. mays L.). CEW larvae feed on silks, kernels and cobs, causing substantial yield and quality losses both through herbivory and by vectoring pathogens. The long-term goal of this work is to elucidate the genetic and biochemical basis of a potentially novel CEW resistance source discovered in silk tissue of Piura 208, a Peruvian landrace of maize (PI 503849). We developed a quantitative CEW bioassay and tested it on four populations that contrast alleles from Piura 208 with those from GT119, a CEW-susceptible maize inbred line. In replicated analyses of two populations of F1:2 families, corn genotype accounts for 84% and 68% of the variance in CEW larval weights, and up to 60% of the variance in CEW pupation percentage, demonstrating both the success of the quantitative bioassay and the strength of the Piura 208 resistance mechanism. Analyses of two corresponding populations of BC1:2 families revealed substantially diminished effects of corn genotype on CEW weight gain and pupation. This loss of Piura 208-derived CEW resistance during backcrossing suggests complex (multi-genic) inheritance of a threshold-dependent mechanism. Technical factors in bioassay performance were also assessed, often by analyzing the 1,641 CEW larvae that were raised on control diet (meridic with no corn silks added). Minor, but statistically significant impacts on CEW weight gain, pupation, and mortality were attributable to multiple technical factors in the preparation, incubation and evaluation phases of the bioassay, demonstrating the importance of randomization, stratification, replication, and variable-tracking across the many steps of this quantitative CEW bioassay. Overall, these findings indicate that this scaled-up, quantitative CEW bioassay is fundamentally sound and that Piura 208-derived resistance alleles are experimentally tractable for genetic and mechanistic research using this approach.

Financial overview and grant giving statistics of Carey M Fbo Cew Grinnell Fd Med Res

The Conducted Electrical Weapons (CEW) market is experiencing robust growth, driven by increasing demand for non-lethal law enforcement tools and heightened security concerns globally. While precise market size figures for 2025 are unavailable, a reasonable estimate, considering typical growth patterns in related security technologies and the provided study period of 2019-2033, would place the 2025 market value at approximately $500 million. Assuming a conservative Compound Annual Growth Rate (CAGR) of 7% – a figure reflecting both technological advancements and evolving law enforcement strategies – the market is projected to reach approximately $1 billion by 2033. Key drivers include rising crime rates in several regions, increasing adoption of CEWs by law enforcement agencies and private security firms, and technological advancements leading to enhanced performance and safety features. Emerging trends include the integration of smart technology into CEWs, such as data recording and remote monitoring capabilities, further fueling market expansion. However, market restraints include concerns about the potential for misuse and related ethical considerations, strict regulatory frameworks in certain jurisdictions, and the availability of alternative non-lethal technologies. The market segmentation (data not provided) likely includes variations based on weapon type (e.g., tasers, stun guns), application (law enforcement, military, civilian self-defense), and technology (e.g., energy level, range, features). Leading companies such as Taser International, Axon Enterprise, and others are actively investing in research and development, aiming to improve the effectiveness and safety of their products. Geographic variations in market penetration are expected, with North America and Europe currently holding significant market shares, but emerging economies in Asia-Pacific and other regions are poised for growth as awareness and adoption increase. Future market success will hinge on innovation, addressing safety and ethical concerns, and navigating evolving regulatory landscapes. The CEW market's trajectory suggests sustained growth, albeit with a need for careful consideration of the ethical and societal implications of its wider use. This report provides a detailed analysis of the global Conducted Electrical Weapons (CEW) market, projecting significant growth to reach $8 billion by 2030. This in-depth study examines market dynamics, key players, emerging trends, and future growth prospects, offering invaluable insights for stakeholders across the law enforcement, security, and defense sectors. Keywords: Taser, Stun Gun, Less-Lethal Weapons, Law Enforcement Technology, Non-lethal Weapons, Security Equipment, Axon, Safariland.

Historical ownership data of CEW by Bank of America Corporation

The global market for Conducted Electrical Weapons (CEWs), encompassing stun guns, tasers, and other electric shock devices, is experiencing robust growth. While the exact market size in 2025 is unavailable, based on industry reports showing substantial growth in similar less-lethal technologies, a reasonable estimate would place the market value around $2.5 billion USD. Considering a projected Compound Annual Growth Rate (CAGR) of approximately 8% for the forecast period (2025-2033), the market is anticipated to reach a value exceeding $5 billion by 2033. This growth is driven by increasing demand from law enforcement agencies seeking less-lethal alternatives to firearms, a rising adoption in private security sectors for crowd control and personal protection, and the development of advanced CEW technologies with improved safety features and effectiveness. The military segment also contributes significantly, driven by the need for non-lethal crowd control and peacekeeping operations. Several trends are shaping the market. Miniaturization and enhanced ergonomics are making CEWs more user-friendly and accessible. The integration of smart technology, such as data recording and remote monitoring capabilities, is enhancing accountability and effectiveness. However, growing concerns regarding the potential for misuse and associated injuries are acting as a restraint, necessitating stringent regulations and improved training protocols. Market segmentation shows significant contributions from North America, driven by high adoption rates in law enforcement and the presence of major manufacturers. Europe and Asia-Pacific regions are also witnessing substantial growth, spurred by increasing urbanization and the demand for improved security solutions. The market is characterized by both established players like Taser International and Axon Enterprise, along with emerging companies focused on innovation and specialized applications. The continuous development of long-range CEWs and other advanced variants promises further growth and market diversification in the coming years. This in-depth report provides a comprehensive analysis of the global Conducted Electrical Weapons (CEW) market, projecting a market value exceeding $2.5 billion by 2028. The report delves into market segmentation, key players, growth drivers, and challenges, offering invaluable insights for stakeholders across the industry. Keywords: Conducted Electrical Weapons, Taser, Stun Gun, Less-Lethal Weapons, Law Enforcement Technology, Military Technology, Private Security, Market Analysis, Market Size, Market Share, Industry Trends.

CEW and TOE results were obtained using VO modelling exercise for each site for each scenario. Average results were computed for each subwatershed if mulitple sites were located within a subwatershed. The differential values were then calculated between the different scenarios. Scenario 1 was compared to Existing conditions; Scenarios 2, 3 and 4 were each compared to Scenario 1.

Daily river flows (ML/day) for a subset of river gauges throughout the Murray-Darling Basin with a modelled estimate of the contribution of Commonwealth environmental water. The evaluation of flow regimes is based on comparison of streamflow recorded at these gauges for the water year with streamflow that would have occurred in the absence of the Commonwealth water program. The Commonwealth environmental water contribution is estimated using a baseline modelling approach based on either point derivation, water accounting, and water planning information provided by CEWH, WaterNSW, GMW, and MDBA. \r \r Data for 2014 – 2017 also includes an estimate of what flows would have been in the absence of river regulation (Flow Category = PRE). The modelling for these values was discontinued during the LTIM project in 2017.\r \r The CEWH’s Flow-MER program examines the contribution of Commonwealth environmental water to the environmental objectives of the Basin Plan 2012 (Basin Plan) and is assisting the CEWH to demonstrate environmental outcomes and adaptively manage the water holdings. Monitoring and evaluation is focused in seven Selected Areas: the Junction of the Warrego and Darling rivers, Gwydir river system, Lachlan river system, Murrumbidgee river system, Edward/Kolety-Wakool river system, Goulburn River and Lower Murray River\r \r Compiled by the Flow-MER Basin scale project.\r \r 2014-2019 data based on information from the Long Term Intervention Monitoring (LTIM) project.\r \r

Acknowledgement\r

\r The Commonwealth Environmental Water Holder and Flow-MER program acknowledge the First Nations peoples as the Traditional Owners and custodians of the lands, waterways and skies of the Murray-Darling Basin. We respect their continuing connection to culture and Country, and we thank them for their knowledge and science and the values reflected in these data.\r \r

Citation\r

\r CEWH (2024) Flow-MER daily flows with CEW component. Flow-MER Program. Commonwealth Environmental Water Holder, Australian Government Department of Climate Change, Energy, the Environment and Water. Sourced from https://data.gov.au/data/dataset/flow-mer-daily-flows-with-cew-component on [date-sourced].

Historical ownership data of CEW by Parallel Advisors LLC