C Uas Laser Guided Rocket Systems

  c-uas laser-guided rocket systems: Counter-Unmanned Aircraft System (CUAS) Capability for Battalion-and-Below Operations National Academies of Sciences, Engineering, and Medicine, Division on Engineering and Physical Sciences, Board on Army Science and Technology, Committee on Counter-Unmanned Aircraft System (CUAS) Capability for Battalion-and-Below Operations, 2018-03-29 The development of inexpensive small unmanned aircraft system (sUAS) technologies and the growing desire of hobbyists to have more and more capability have created a sustained sUAS industry, however these capabilities are directly enabling the ability of adversaries to threaten U.S. interests. In response to these threats, the U.S. Army and other Department of Defense (DoD) organizations have invested significantly in counter-sUAS technologies, often focusing on detecting radio frequency transmissions by sUASs and/or their operators, and jamming the radio frequency command and control links and Global Positioning System signals of individual sUASs. However, today's consumer and customized sUASs can increasingly operate without radio frequency command and control links by using automated target recognition and tracking, obstacle avoidance, and other software-enabled capabilities. The U.S. Army tasked the National Academies of Sciences, Engineering, and Medicine to conduct a study to address the above concerns. In particular, the committee was asked to assess the sUAS threat, particularly when massed and collaborating; assess current capabilities of battalion-and- below infantry units to counter sUASs; identify counter-sUAS technologies appropriate for near- term, mid-term, and far-term science and technology investment; consider human factors and logistics; and determine if the Department of Homeland Security could benefit from DoD efforts. This abbreviated report provides background information on the full report and the committee that prepared it.
  c-uas laser-guided rocket systems: Unmanned Aircraft Systems (Uas) in the Cyber Domain: Protecting Usa's Advanced Air Assets Julie J. C. H. Ryan, Hans C. Mumm, Wayne D. Lonstein Esq, 2018-09-14 Unmanned Aircraft Systems (UAS) are an integral part of the US national critical infrastructure. They must be protected from hostile intent or use to the same level as any other military or commercial asset involved in US national security. However, from the Spratly Islands to Djibouti to heartland America, the expanding Chinese Unmanned Aircraft Systems (UAS / Drone) industry has outpaced the US technologically and numerically on all fronts: military, commercial, and recreational. Both countries found that there were large information security gaps in unmanned systems that could be exploited on the international cyber-security stage. Many of those gaps remain today and are direct threats to US advanced Air Assets if not mitigated upfront by UAS designers and manufacturers. The authors contend that US military / commercial developers of UAS hardware and software must perform cyber risk assessments and mitigations prior to delivery of UAS systems to stay internationally competitive and secure. The authors have endeavored to bring a breadth and quality of information to the reader that is unparalleled in the unclassified sphere. This book will fully immerse and engage the reader in the cyber-security considerations of this rapidly emerging technology that we know as unmanned aircraft systems (UAS). Topics covered include National Airspace (NAS) policy issues, information security, UAS vulnerabilities in key systems (Sense and Avoid / SCADA), collision avoidance systems, stealth design, intelligence, surveillance and reconnaissance (ISR) platforms; weapons systems security; electronic warfare considerations; data-links, jamming operational vulnerabilities and still-emerging political scenarios that affect US military / commercial decisions.
  c-uas laser-guided rocket systems: Next War John F Antal, 2023-09-28 ...a useful addition to the literature of the changing character of war. Its scoping and focus, and its application of the identified disruptors to current challenges offer immediate insights for today’s commanders and defence policymakers. — The Wavell Room The nature of war is constant change. We live in an era of exponential technological acceleration which is transforming how wars are waged. Today, the battlespace is transparent; multi-domain sensors can see anything, and long-range precision fire can target everything that is observed. Autonomous weapons can be unleashed into the battlespace and attack any target from above, hitting the weakest point of tanks and armored vehicles. The velocity of war is hyper-fast. Battle shock is the operational, informational, and organizational paralysis induced by the rapid convergence of key disrupters in the battlespace. It occurs when the tempo of operations is so fast, and the means so overwhelming, that the enemy cannot think, decide, or act in time. Hit with too many attacks in multiple domains, all occurring simultaneously, the enemy is paralyzed. In short, the keys to decisive victory in war is to generate battle shock. Imagine a peer fight against Communist China, a new war in Europe against a resurgent Russia, or a conflict against Iran in the Middle East. How can our forces survive an enemy-first strike in these circumstances? Can we adapt to the ever-accelerating tempo of war? Will our forces be able to mask from enemy sensors? How will leaders execute command and control in a degraded communications environment? Will our command posts survive? Will our commanders see and understand what is happening in order to plan, decide, and act in real time? This book addresses these tough questions and more.
  c-uas laser-guided rocket systems: Power Projection Fouad Sabry, 2024-10-07 A deep dive into global power projection, examining how nations use military, economic, and diplomatic strategies to assert dominance. Understanding power projection is crucial for grasping international dynamics and influence. This book explores various aspects of these strategies, providing a comprehensive view of how nations project power globally. 1: Power Projection - Introduction to power projection and its significance in global politics. 2: Intelligence - The role of intelligence in shaping global influence through power projection. 3: Hypersonic Flight - The impact of hypersonic flight technology on global power dynamics. 4: National Defense Strategy (United States) - How the U.S. uses its defense strategy to maintain global power. 5: Space Development Agency - The strategic role of space development in power projection. 6: On Conducting a Special Military Operation - The intricacies of military operations as a power projection tool. 7: 2022 Moscow Victory Day Parade - Military parades as a demonstration of national strength. 8: Nuclear Threats During the Russian Invasion of Ukraine - The use of nuclear threats in power projection during conflicts. 9: Timeline of the Russian Invasion of Ukraine (24 February – 7 April 2022) - Key events in the early stages of the invasion and their global impact. 10: Foreign Involvement in the Russian Invasion of Ukraine - How other nations' involvement in Ukraine highlights power projection. 11: World War III - Potential scenarios of a third World War in terms of global power struggles. 12: Russia and Weapons of Mass Destruction - Russia's arsenal and its role in projecting power. 13: Intelligence, Surveillance, Target Acquisition, and Reconnaissance - The importance of intelligence in effective power projection. 14: Sergei Shoigu - Profile of the Russian Defense Minister and his role in Russia’s power projection. 15: Russia–United States Relations - The impact of U.S.-Russia relations on global power dynamics. 16: Foreign Policy of Vladimir Putin - Putin’s foreign policy strategies and their implications for power projection. 17: NATO–Russia Relations - The significance of NATO-Russia relations in power projection. 18: Russo-Ukrainian War - The broader implications of the war for international power struggles. 19: Prelude to the Russian Invasion of Ukraine - Events leading up to the invasion and their effects on global power structures. 20: Reactions to the 2021–2022 Russo-Ukrainian Crisis - Global reactions to the crisis and their influence on power dynamics. 21: Disinformation in the Russian Invasion of Ukraine - The role of disinformation in warfare and power projection. This book is an essential guide for professionals, students, and enthusiasts aiming to deepen their understanding of the strategies that nations use to assert dominance in global politics.
  c-uas laser-guided rocket systems: Department of Defense Dictionary of Military and Associated Terms United States. Joint Chiefs of Staff, 1979
  c-uas laser-guided rocket systems: The Unmanned Systems and Artificial Intelligence Revolution Dr. Terence M. Dorn, 2024-06-27 This book completes my unmanned systems trilogy and provides an update on the capabilities and threat potential of Unmanned Systems since my previous two books, entitled Unmanned Systems: Savior or Threat and The Importance and Vulnerabilities of U.S. Critical Infrastructure to Unmanned Systems and Cyber. The U.S. Congress and military services claim humans will control artificial intelligence (AI)-enhanced autonomous weapon systems, yet they are severely mistaken. The age of autonomous warfare has already arrived, and its incorporation of AI has begun. Our strategic competitors know that AI will digest volumes of information and make decisions far faster than human beings. They have already been unleashed without a human in the loop to authorize engagements against human beings. Our world is embroiled in a technological revolution with unmanned systems and the meteoric rise of more responsive and innovative AI algorithms. These two entities are not in their infancy, for they have emerged and grown immensely in capability, potential, and threat. There is a fierce, modern-day race among countries to conduct research and development to get improved unmanned systems and AI out to military forces, governments, companies, and the general populace. By combining armed and autonomous unmanned systems with AI, we are leap-frogging humanity past science fiction movies towards real-world militarized, AI-enhanced, autonomous unmanned systems and, quite possibly, Skynet.
  c-uas laser-guided rocket systems: Unmanned Aircraft Systems Reg Austin, 2011-09-20 Unmanned Aircraft Systems delivers a much needed introduction to UAV System technology, taking an integrated approach that avoids compartmentalising the subject. Arranged in four sections, parts 1-3 examine the way in which various engineering disciplines affect the design, development and deployment of UAS. The fourth section assesses the future challenges and opportunities of UAS. Technological innovation and increasingly diverse applications are two key drivers of the rapid expansion of UAS technology. The global defence budget for UAS procurement is expanding, and in the future the market for civilian UAVs is expected to outmatch that of the military. Agriculture, meteorology, conservation and border control are just a few of the diverse areas in which UAVs are making a significant impact; the author addresses all of these applications, looking at the roles and technology behind both fixed wing and rotorcraft UAVs. Leading aeronautical consultant Reg Austin co-founded the Bristol International Remotely Piloted Vehicle (RPV) conferences in 1979, which are now the longest-established UAS conferences worldwide. In addition, Austin has over 40 years' experience in the design and development of UAS. One of Austin's programmes, the Sprite UAV System has been deployed around the world and operated by day and night, in all weathers.
  c-uas laser-guided rocket systems: Weapon Systems Handbook , 2020-05-03 July 2019 Printed in BLACK AND WHITE The Army's Weapon Systems Handbook was updated in July 2019, but is still titled Weapon Systems Handbook 2018. We are printing this in black and white to keep the price low. It presents many of the acquisition programs currently fielded or in development. The U.S. Army Acquisition Corps, with its 36,000 professionals, bears a unique responsibility for the oversight and systems management of the Army's acquisition lifecycle. With responsibility for hundreds of acquisition programs, civilian and military professionals collectively oversee research, development and acquisition activities totaling more than $20 billion in Fiscal Year 2016 alone. Why buy a book you can download for free? We print this so you don't have to. We at 4th Watch Publishing are former government employees, so we know how government employees actually use the standards. When a new standard is released, somebody has to print it, punch holes and put it in a 3-ring binder. While this is not a big deal for a 5 or 10-page document, many DoD documents are over 400 pages and printing a large document is a time- consuming effort. So, a person that's paid $25 an hour is spending hours simply printing out the tools needed to do the job. That's time that could be better spent doing mission. We publish these documents so you can focus on what you are there for. It's much more cost-effective to just order the latest version from Amazon.com. SDVOSB If there is a standard you would like published, let us know. Our web site is usgovpub.com
  c-uas laser-guided rocket systems: Navy Lasers, Railgun, and Gun-Launched Guided Projectile Congressional Service, 2018-07-18 The Navy is developing three new ship-based weapons that could improve the ability of Navy surface ships to defend themselves against missiles, unmanned aerial vehicles (UAVs), and surface craft: the Surface Navy Laser Weapon System (SNLWS), the electromagnetic railgun (EMRG), and the gun-launched guided projectile (GLGP), previously known as the hypervelocity projectile (HVP). The Navy refers to the initial (i.e., Increment 1) version of SNLWS as HELIOS, an acronym meaning high-energy laser with integrated optical dazzler and surveillance. EMRG could additionally provide the Navy with a new naval surface fire support (NSFS) weapon for attacking land targets in support of Marines or other friendly ground forces ashore. The Department of Defense is exploring the potential for using GLGP across multiple U.S. military services. Any one of these three new weapons, if successfully developed and deployed, might be regarded as a game changer for defending Navy surface ships against enemy missiles and UAVs. If two or three of them are successfully developed and deployed, the result might be considered not just a game changer, but a revolution. Rarely has the Navy had so many potential new types of surface-ship air-defense weapons simultaneously available for development and potential deployment. Although the Navy in recent years has made considerable progress in developing technologies for these new weapons, a number of significant development challenges remain. Overcoming these challenges will require additional development work, and ultimate success in overcoming them is not guaranteed. The issue for Congress is whether to approve, reject, or modify the Navy's funding requests and proposed acquisition strategies for these three potential new weapons. Potential oversight questions for Congress include the following: Using currently available air-defense weapons, how well could Navy surface ships defend themselves in a combat scenario against an adversary such as China that has or could have large numbers of missiles and UAVs? How would this situation change if Navy surface ships in coming years were equipped with SNLWS, EMRG, GLGP, or some combination of these systems? How significant are the remaining development challenges for SNLWS, EMRG, and GLGP? Are current schedules for developing SNLWS, EMRG, and GLGP appropriate in relation to remaining development challenges and projected improvements in enemy missiles and UAVs? When does the Navy anticipate issuing roadmaps detailing its plans for procuring and installing production versions of SNLWS, EMRG, and GLGP on specific Navy ships by specific dates? Will the kinds of surface ships that the Navy plans to procure in coming years have sufficient space, weight, electrical power, and cooling capability to take full advantage of SNLWS and EMRG? What changes, if any, would need to be made in Navy plans for procuring large surface combatants (i.e., destroyers and cruisers) or other Navy ships to take full advantage of SNLWS and EMRGs? Given the Navy's interest in HPV, how committed is the Navy to completing the development of EMRG and eventually deploying EMRGs on Navy ships? Are the funding line items for SNLWS, EMRG, and GLDP sufficiently visible for supporting congressional oversight?
  c-uas laser-guided rocket systems: Combined Arms Warfare and Unmanned Aircraft Systems Seth G. Jones, Jake Harrington, Christopher K. Reid, Matthew Strohmeyer, 2023-01-09 Unmanned aircraft systems (UASs) have played an important role in warfare over the past two decades, including to conduct counterterrorism operations. To better understand the utility of UASs, this latest report from CSIS adopts a comparative case study approach and examines the Nagorno-Karabakh war in 2020, Ukraine war in 2022, and Northern Edge-21 exercise in the Indo-Pacific in 2021. These cases demonstrate that UASs have been increasingly integrated into combined arms warfare, a major change from the past. In addition, UASs are likely to play an increasingly important role in several types of missions as part of strategic competition and warfare with such countries as China and Russia.
  c-uas laser-guided rocket systems: Introduction to Unmanned Aircraft Systems R. Kurt Barnhart, Douglas M. Marshall, Eric Shappee, 2021-03-04 Introduction to Unmanned Aircraft Systems, Third Edition surveys the basics of unmanned aircraft systems (UAS), from sensors, controls, and automation to regulations, safety procedures, and human factors. Featuring chapters by leading experts, this fully updated bestseller fills the need for an accessible and effective university textbook. Focussing on the civilian applications of UAS, the text begins with an historical overview of unmanned aerial vehicles, and proceeds to examine each major UAS subsystem. Its combination of understandable technical coverage and up-to-date information on policy and regulation makes the text appropriate for both Aerospace Engineering and Aviation programs.
  c-uas laser-guided rocket systems: U.S. Unmanned Aerial Systems Jeremiah Gertler, 2012 To be sure, manned systems could accomplish many if not all of the same goals. But unmanned systems reduce the risk to our warfighters by providing a sophisticated stand-off capability that supports intelligence, command and control, targeting, and weapons delivery. These systems also improve situational awareness and reduce many of the emotional hazards inherent in air and ground combat, thus decreasing the likelihood of causing civilian noncombatant casualties. UAVs have gained favor as ways to reduce risk to combat troops, the cost of hardware and the reaction time in a surgical strike and to conduct missions in areas that are difficult to access or otherwise considered too high-risk for manned aircraft or personnel on the ground.--Page 3 (author).
  c-uas laser-guided rocket systems: C4ISR for Future Naval Strike Groups National Research Council, Division on Engineering and Physical Sciences, Naval Studies Board, Committee on C4ISR for Future Naval Strike Groups, 2006-04-26 The Navy has put forth a new construct for its strike forces that enables more effective forward deterrence and rapid response. A key aspect of this construct is the need for flexible, adaptive command, control, communications, computers, intelligence, surveillance, and reconnaissance (C4ISR) systems. To assist development of this capability, the Navy asked the NRC to examine C4ISR for carrier, expeditionary, and strike and missile defense strike groups, and for expeditionary strike forces. This report provides an assessment of C4ISR capabilities for each type of strike group; recommendations for C4ISR architecture for use in major combat operations; promising technology trends; and an examination of organizational improvements that can enable the recommended architecture.
  c-uas laser-guided rocket systems: U.S. Foreign Aid to Israel Jeremy M. Sharp, 2010-10 Contents: (1) U.S.-Israeli Relations and the Role of Foreign Aid; (2) U.S. Bilateral Military Aid to Israel: A 10-Year Military Aid Agreement; Foreign Military Financing; Ongoing U.S.-Israeli Defense Procurement Negotiations; (3) Defense Budget Appropriations for U.S.-Israeli Missile Defense Programs: Multi-Layered Missile Defense; High Altitude Missile Defense System; (4) Aid Restrictions and Possible Violations: Israeli Arms Sales to China; Israeli Settlements; (5) Other Ongoing Assistance and Cooperative Programs: Migration and Refugee Assistance; Loan Guarantees for Economic Recovery; American Schools and Hospitals Abroad Program; U.S.-Israeli Scientific and Business Cooperation; (6) Historical Background. Illustrations.
  c-uas laser-guided rocket systems: Joint Vision 2020 , 2000 Joint Vision 2020 is the conceptual template for how we will channel the vitality of our people and leverage technological opportunities to achieve new levels of effectiveness in joint warfighting.
  c-uas laser-guided rocket systems: Military Avionics Systems Ian Moir, Allan Seabridge, 2006-04-05 Ian Moir and Allan Seabridge Military avionics is a complex and technically challenging field which requires a high level of competence from all those involved in the aircraft design and maintenance. As the various systems on board an aircraft evolve to become more and more inter-dependent and integrated, it is becoming increasingly important for designers to have a holistic view and knowledge of aircraft systems in order to produce an effective design for their individual components and effectively combine the systems involved. This book introduces the military roles expected of aircraft types and describes the avionics systems required to fulfil these roles. These range from technology and architectures through to navigations systems, sensors, computing architectures and the human-machine interface. It enables students to put together combinations of systems in order to perform specific military roles. Sister volume to the authors’ previous successful title ‘Civil Avionics Systems’ Covers a wide range of military aircraft roles and systems applications Offers clear and concise system descriptions Includes case studies and examples from current projects Features full colour illustrations detailing aircraft display systems Military Avionics Systems will appeal to practitioners in the aerospace industry across many disciplines such as aerospace engineers, designers, pilots, aircrew, maintenance engineers, ground crew, navigation experts, weapons developers and instrumentation developers. It also provides a valuable reference source to students in the fields of systems and aerospace engineering and avionics.
  c-uas laser-guided rocket systems: Unmanned Vehicle Systems & Operations on Air, Sea, Land Randall Nichols, Hans Mumm, Wayne Lonstein, Julie Ryan, Candice Carter, John-Paul Hood, Jeremy Shay, Randall Mai, Mark Jackson, 2020-10-02 Unmanned Vehicle Systems & Operations On Air, Sea, Land is our fourth textbook in a series covering the world of Unmanned Aircraft Systems (UAS) and Counter Unmanned Aircraft Systems (CUAS). (Nichols R. K., 2018) (Nichols R. K., et al., 2019) (Nichols R. , et al., 2020)The authors have expanded their purview beyond UAS / CUAS systems. Our title shows our concern for growth and unique cyber security unmanned vehicle technology and operations for unmanned vehicles in all theaters: Air, Sea and Land - especially maritime cybersecurity and China proliferation issues. Topics include: Information Advances, Remote ID, and Extreme Persistence ISR; Unmanned Aerial Vehicles & How They Can Augment Mesonet Weather Tower Data Collection; Tour de Drones for the Discerning Palate; Underwater Autonomous Navigation & other UUV Advances; Autonomous Maritime Asymmetric Systems; UUV Integrated Autonomous Missions & Drone Management; Principles of Naval Architecture Applied to UUV's; Unmanned Logistics Operating Safely and Efficiently Across Multiple Domains; Chinese Advances in Stealth UAV Penetration Path Planning in Combat Environment; UAS, the Fourth Amendment and Privacy; UV & Disinformation / Misinformation Channels; Chinese UAS Proliferation along New Silk Road Sea / Land Routes; Automaton, AI, Law, Ethics, Crossing the Machine - Human Barrier and Maritime Cybersecurity.Unmanned Vehicle Systems are an integral part of the US national critical infrastructure The authors have endeavored to bring a breadth and quality of information to the reader that is unparalleled in the unclassified sphere. Unmanned Vehicle (UV) Systems & Operations On Air, Sea, Land discusses state-of-the-art technology issues facing U.S. UV system researchers / designers / manufacturers / testers. We trust our newest look at Unmanned Vehicles in Air, Sea, and Land will enrich our students and readers understanding of the purview of this wonderful technology we call UV.
  c-uas laser-guided rocket systems: Weapon Systems , 2013
  c-uas laser-guided rocket systems: Routledge Handbook of the Future of Warfare Artur Gruszczak, Sebastian Kaempf, 2023-09-19 This handbook provides a comprehensive, problem-driven and dynamic overview of the future of warfare. The volatilities and uncertainties of the global security environment raise timely and important questions about the future of humanity’s oldest occupation: war. This volume addresses these questions through a collection of cutting-edge contributions by leading scholars in the field. Its overall focus is prognostic rather than futuristic, highlighting discernible trends, key developments and themes without downplaying the lessons from the past. By making the past meet the present in order to envision the future, the handbook offers a diversified outlook on the future of warfare, which will be indispensable for researchers, students and military practitioners alike. The volume is divided into six thematic sections. Section I draws out general trends in the phenomenon of war and sketches the most significant developments, from the past to the present and into the future. Section II looks at the areas and domains which actively shape the future of warfare. Section III engages with the main theories and conceptions of warfare, capturing those attributes of contemporary conflicts which will most likely persist and determine the dynamics and directions of their transformations. The fourth section addresses differentiation and complexity in the domain of warfare, pointing to those factors which will exert a strong impact on the structure and properties of that domain. Section V focuses on technology as the principal trigger of changes and alterations in the essence of warfare. The final section draws on the general trends identified in Section I and sheds light on how those trends have manifested in specific local contexts. This section zooms in on particular geographies which are seen and anticipated as hotbeds where future warfare will most likely assume its shape and reveal its true colours. This book will be of great interest to students of strategic studies, defence studies, war and technology, and International Relations.
  c-uas laser-guided rocket systems: U.S. Critical Infrastructure Dr. Terence M. Dorn, 2023-06-19 This book provides an update to the capabilities of unmanned systems since my two previous books entitled Unmanned Systems: Savior or Threat and The Importance and Vulnerabilities of U.S. Critical Infrastructure to Unmanned Systems and Cyber. Our world is undergoing a revolution in how we send and receive goods, conduct surveillance and launch attacks against our enemies, and reach out and explore our terrestrial neighbors and distant galaxies. It is akin to the introduction of fire to ancient mankind and automobiles at the turn of the nineteenth century. There is much that is being done and much more yet to be developed before we accept these new wonderous and simultaneously dangerous additions to our lives. By mating autonomous unmanned systems with artificial intelligence, we are taking a step closer to the creation of a Skynet entity.
  c-uas laser-guided rocket systems: Assessment of the Proliferation of Certain Remotely Piloted Aircraft Systems George Nacouzi, J. D. Williams, Brian Dolan, Anne Stickells, David Luckey, Colin Ludwig, Jia Xu, Yuliya Shokh, Daniel M. Gerstein, Michael H. Decker, 2018 RAND Corporation researchers assessed the impact that certain remotely piloted aircraft (RPA) governed by the Missile Technology Control Regime (MTCR) have on U.S. national security interests. In this report, they document their findings.
  c-uas laser-guided rocket systems: Building Toward an Unmanned Aircraft System Training Strategy Bernard Rostker, 2014 Unmanned aircraft systems (UASs) have become increasingly prevalent in and important to U.S. military operations. Initially serving only as reconnaissance or intelligence platforms, they now carry out such other missions as attacking enemy forces. The swift expansion in their numbers and in the demand for their employment has, however, significantly increased demands on logistics and training systems. The challenge is not simply training system operators but also training operational forces and their commanders to integrate the systems into combat operations. Much of that aspect of training has thus far happened as units employ the systems in actual operations - essentially, on-the-job training. UAS training, particularly for the employment of UASs, now needs to be integrated more formally and cost-effectively into service and joint training programs. This report develops a general concept for training military forces in employment of UASs and a framework for addressing the training requirements and discusses the limits of existing infrastructure in supporting UAS training. Interoperability among services is another issue, because services have thus far mainly developed training suitable for their own needs. But the services have established a set of multiservice tactics, techniques, and procedures for UASs, which should facilitate interoperability training. At present, units are not always ready for joint training, so the focus should be on improving training at the unit level in the employment of UAS capabilities, with the overall guiding principle being to train as we fight.
  c-uas laser-guided rocket systems: Predator Empire Ian G. R. Shaw, 2016-08-15 What does it mean for human beings to exist in an era of dronified state violence? How can we understand the rise of robotic systems of power and domination? Focusing on U.S. drone warfare and its broader implications as no other book has to date, Predator Empire argues that we are witnessing a transition from a labor-intensive “American empire” to a machine-intensive “Predator Empire.” Moving from the Vietnam War to the War on Terror and beyond, Ian G. R. Shaw reveals how changes in military strategy, domestic policing, and state surveillance have come together to enclose our planet in a robotic system of control. The rise of drones presents a series of “existential crises,” he suggests, that are reengineering not only spaces of violence but also the character of the modern state. Positioning drone warfare as part of a much longer project to watch and enclose the human species, he shows that for decades—centuries even—human existence has slowly but surely been brought within the artificial worlds of “technological civilization.” Instead of incarcerating us in prisons or colonizing territory directly, the Predator Empire locks us inside a worldwide system of electromagnetic enclosure—in which democratic ideals give way to a system of totalitarian control, a machinic “rule by Nobody.” As accessibly written as it is theoretically ambitious, Predator Empire provides up-to-date information about U.S. drone warfare, as well as an in-depth history of the rise of drones.
  c-uas laser-guided rocket systems: Over 40 Publications / Studies Combined: UAS / UAV / Drone Swarm Technology Research , Over 3,800 total pages ... Just a sample of the studies / publications included: Drone Swarms Terrorist and Insurgent Unmanned Aerial Vehicles: Use, Potentials, and Military Implications Countering A2/AD with Swarming Stunning Swarms: An Airpower Alternative to Collateral Damage Ideal Directed-Energy System To Defeat Small Unmanned Aircraft System Swarms Break the Kill Chain, not the Budget: How to Avoid U.S. Strategic Retrenchment Gyges Effect: An Ethical Critique of Lethal Remotely Piloted Aircraft Human Robotic Swarm Interaction Using an Artificial Physics Approach Swarming UAS II Swarming Unmanned Aircraft Systems Communication Free Robot Swarming UAV Swarm Attack: Protection System Alternatives for Destroyers Confidential and Authenticated Communications in a Large Fixed-Wing UAV Swarm UAV Swarm Behavior Modeling for Early Exposure of Failure Modes Optimized Landing of Autonomous Unmanned Aerial Vehicle Swarms Mini, Micro, and Swarming Unmanned Aerial Vehicles: A Baseline Study UAV Swarm Operational Risk Assessment System SmartSwarms: Distributed UAVs that Think Command and Control Autonomous UxV's UAV Swarm Tactics: An Agent-Based Simulation and Markov Process Analysis A Novel Communications Protocol Using Geographic Routing for Swarming UAVs Performing a Search Mission Accelerating the Kill Chain via Future Unmanned Aircraft Evolution of Control Programs for a Swarm of Autonomous Unmanned Aerial Vehicles AFIT UAV Swarm Mission Planning and Simulation System A Genetic Algorithm for UAV Routing Integrated with a Parallel Swarm Simulation Applying Cooperative Localization to Swarm UAVS Using an Extended Kalman Filter A Secure Group Communication Architecture for a Swarm of Autonomous Unmanned Aerial Vehicles Braving the Swarm: Lowering Anticipated Group Bias in Integrated Fire/Police Units Facing Paramilitary Terrorism Distributed Beamforming in a Swarm UAV Network Integrating UAS Flocking Operations with Formation Drag Reduction Tracking with a Cooperatively Controlled Swarm of GMTI Equipped UAVS Using Agent-Based Modeling to Evaluate UAS Behaviors in a Target-Rich Environment Experimental Analysis of Integration of Tactical Unmanned Aerial Vehicles and Naval Special Warfare Operations Forces Target Acquisition Involving Multiple Unmanned Air Vehicles: Interfaces for Small Unmanned Air Systems (ISUS) Program Tools for the Conceptual Design and Engineering Analysis of Micro Air Vehicles Architectural Considerations for Single Operator Management of Multiple Unmanned Aerial Vehicles
  c-uas laser-guided rocket systems: The Islamic State and Drones U S Military, Department of Defense (Dod), Don Rassler, 2019-05-22 The Islamic State is a group known for doing things a bit differently, for its capacity for innovation, and for its many 'firsts.' Two of those 'firsts' happened within months of each other. The first occurred in October 2016 when the group used a bomb-laden drone to kill, after the explosive hidden within the drone killed two Kurdish peshmerga soldiers who were investigating the device. Another 'first' happened in January 2017 when the Islamic State released a propaganda video that showed nearly a dozen examples of the group releasing munitions on its enemies from the air with a fair degree of accuracy via quadcopter drones it had modified. And it wasn't long before the group's bomb-drop capable drones would go on to kill, too. After reaching a high point in the spring of 2017, the scale of the Islamic State drone threat-like many other dimensions of the group and its power-has already been significantly degraded. A surprisingly little amount of analytical attention, however, has been given to how the Islamic State was able to pull off its drone feats and bring its program to scale in a relatively short amount of time. This report seeks to address this gap by evaluating the main factors that helped the Islamic State to effectively use modified commercial drones as weapons. It also highlights some of the broader threat and policy implications associated with the Islamic State's pioneering use of drones.This compilation includes a reproduction of the 2019 Worldwide Threat Assessment of the U.S. Intelligence Community.1. Executive Summary * 2. Introduction * 3. Keep It Simple, Stupid! The Islamic State's Tactical and Operational Drone Innovations * 4. Scale, Sources, and Manufacturing * 5. From Point Of Purchase to the Islamic State in Syria and Iraq: The IBACS Conspiracy * 6. From Recovered Drones to Suppliers: Retracing Islamic State Drone Purchases * 7. Drone Games, Terror Drone Diffusion, and Near-Term Threats * 8. Future Terror Drone Use * 9. Conclusion
  c-uas laser-guided rocket systems: Defending Iran Gawdat Bahgat, Anoushiravan Ehteshami, 2021-09-23 An authoritative analysis of Iran's defense doctrine and security policies set within the context of security and political relations in the Middle East.
  c-uas laser-guided rocket systems: Naval Aviation Vision , 2010
  c-uas laser-guided rocket systems: NATO's Air War for Kosovo Benjamin S. Lambeth, 2001-11-16 This book offers a thorough appraisal of Operation Allied Force, NATO's 78-day air war to compel the president of Yugoslavia, Slobodan Milosevic, to end his campaign of ethnic cleansing in Kosovo. The author sheds light both on the operation's strengths and on its most salient weaknesses. He outlines the key highlights of the air war and examines the various factors that interacted to induce Milosevic to capitulate when he did. He then explores air power's most critical accomplishments in Operation Allied Force as well as the problems that hindered the operation both in its planning and in its execution. Finally, he assesses Operation Allied Force from a political and strategic perspective, calling attention to those issues that are likely to have the greatest bearing on future military policymaking. The book concludes that the air war, although by no means the only factor responsible for the allies' victory, certainly set the stage for Milosevic's surrender by making it clear that he had little to gain by holding out. It concludes that in the end, Operation Allied Force's most noteworthy distinction may lie in the fact that the allies prevailed despite the myriad impediments they faced.
  c-uas laser-guided rocket systems: 7 Seconds to Die John F. Antal, 2022-02-03 A military study of the 2020 war between Armenia and Azerbaijan—the first war in history won primarily by unmanned systems. Fought over the course of forty-four days, the Second Nagorno-Karabakh war resulted in a decisive military victory for Azerbaijan. Armenia lost even though they controlled the high ground in a mountainous region that favored traditional defense. In 7 Seconds to Die, military consultant and historian John Antal examines the decisive factors of the war and their implications for the future of armed conflict. The fact that Azerbaijan won the war is not extraordinary, considering the correlation of forces arrayed against Armenia. What is exceptional is that this was the first modern war primarily decided by unmanned weapons. The Turkish-made BAYRAKTAR TB2 Unmanned Air Combat Vehicle (UCAV) and the Israeli-made HAROP Loitering Munition (LM) dominated the fighting and provided Azerbaijan with a war-winning advantage.
  c-uas laser-guided rocket systems: Navy Program Guide United States. Department of the Navy, 2010
  c-uas laser-guided rocket systems: The Anthrax Vaccine Debate Richard A. Hersack, 2001
  c-uas laser-guided rocket systems: Drones For Dummies Mark LaFay, 2015-06-19 The fast and easy way to pick out, set up, and learn to fly your drone Ready to soar into the world of unmanned aircraft? Drones For Dummies introduces you to the fascinating world of UAVs. Written in plain English and brimming with friendly instruction, Drones For Dummies provides you with the information you need to find and purchase the right drone for your needs, examples of ways to use a drone, and even drone etiquette and the laws and regulations governing consumer drone usage. Plus, you'll discover the basics of flight, including how to use a drone to capture photos and video. Originally designed to assist in military and special operations applications, the use of drones has expanded into the public service sector and the consumer market for people looking to have a good time flying an aircraft remotely. Drones For Dummies covers everything you need to know to have fun with your UAV, and is packed with cool ways to expand your drone's use beyond simply flying. Pick the perfect drone to suit your needs Properly set up and fly a drone Use a drone to capture images and footage with a camera Tips for maintaining your drone If you're interested in the exciting new technology of unmanned aircraft vehicles, Drones For Dummies helps you take flight.
  c-uas laser-guided rocket systems: U.S. Navy Program Guide - 2017 Department Of the Navy, 2019-03-12 The U.S. Navy is ready to execute the Nation's tasks at sea, from prompt and sustained combat operations to every-day forward-presence, diplomacy and relief efforts. We operate worldwide, in space, cyberspace, and throughout the maritime domain. The United States is and will remain a maritime nation, and our security and prosperity are inextricably linked to our ability to operate naval forces on, under and above the seas and oceans of the world. To that end, the Navy executes programs that enable our Sailors, Marines, civilians, and forces to meet existing and emerging challenges at sea with confidence. Six priorities guide today's planning, programming, and budgeting decisions: (1) maintain a credible, modern, and survivable sea based strategic deterrent; (2) sustain forward presence, distributed globally in places that matter; (3) develop the capability and capacity to win decisively; (4) focus on critical afloat and ashore readiness to ensure the Navy is adequately funded and ready; (5) enhance the Navy's asymmetric capabilities in the physical domains as well as in cyberspace and the electromagnetic spectrum; and (6) sustain a relevant industrial base, particularly in shipbuilding.
  c-uas laser-guided rocket systems: Brigade Combat Team U. S. Department of the Army, Army Maneuver Center of Excellence, Army Training and Doctrine Command, 2010-09 Field manual 3-90.6 provides the commander and staff of the Brigade Combat Team (BCT) and subordinate units with doctrine relevant to Army and joint operations. It applies to the Heavy Brigade Combat Team (HBCT), the Infantry Brigade Combat Team (IBCT), and the Stryker Brigade Combat Team (SBCT). The doctrine described in this manual applies across the full spectrum of military operations - offense, defense, stability or civil support. This publication: Provides BCTs with a framework in which they can operate as part of a division or independently as part of a joint task force; Provides doctrine for BCT commanders, staffs, and their subordinate commanders and leaders responsible for conducting major activities performed during operations; Serves as an authoritative reference for personnel who: Develop doctrine (fundamental principles and tactics, techniques, and procedures), materiel, and force structure; Develop institution and unit training; Develop unit tactical standard operating procedures for BCT operations.
  c-uas laser-guided rocket systems: Weapon Systems 2012 , 2011
  c-uas laser-guided rocket systems: AU-18 Space Primer Air Command Staff College, 2012-08-01 The US National Space Policy released by the president in 2006 states that the US government should develop space professionals. As an integral part of that endeavor, AU-18, Space Primer, provides to the joint war fighter an unclassified resource for understanding the capabilities, organizations, and operations of space forces. This primer is a useful tool both for individuals who are not space aware-unacquainted with space capabilities, organizations, and operations-and for those who are space aware, especially individuals associated with the space community, but not familiar with space capabilities, organizations, and operations outside their particular areas of expertise. It is your guide and your invitation to all the excitement and opportunity of space. Last published in 1993, this updated version of the Space Primer has been made possible by combined efforts of the Air Command and Staff College's academic year 2008 Jointspacemindedness and Operational Space research seminars, as well as select members of the academic year 2009 Advanced Space research seminar. Air university Press.
  c-uas laser-guided rocket systems: Unmanned Aerial Vehicles David Glade, 2000 The development of uninhabited aerial vehicles (UAVs) could potentially revolutionize how military force is used in the future. While the early operational experiences with UAVs show great promise, their full range of capabilities is largely unknown. However, it is clear that these technologies will enable military forces to use aerospace power more efficiently, which means at lower cost and with less risk to the humans who pilot aircraft. The broader question is the wisdom of using unmanned aerial vehicles for employing lethal force, and in particular which air power missions are best accomplished by uninhabited, piloted, and autonomous vehicles. The corollary is to examine the essential roles of human pilots or operators in aerospace operations in the twenty-first century. Since it is common to draw distinctions between vehicles with an on-board pilot, vehicles with off-board operators, and autonomous vehicles, this study explores the essential role of pilots and contrasts it with the roles of remotely piloted and autonomous vehicles. The assumption is that piloted, remotely piloted, and autonomous vehicles have advantages and disadvantages in military operations, and that these vary in strategic significance for different levels of conflict. Since it is essential for the U.S. defense establishment to consider the strategic and technological implications of these types of aerial vehicles, this study is devoted to addressing the issues raised by the new generation of aerial vehicles.
  c-uas laser-guided rocket systems: Modelling and Simulation for Autonomous Systems Jan Mazal,
  c-uas laser-guided rocket systems: The Russian Way of War Lester W. Grau, Charles K. Bartles, 2018 Force Structure, Tactics, and Modernization of the Russian Ground Forces The mighty Soviet Army is no more. The feckless Russian Army that stumbled into Chechnya is no more. Today's Russian Army is modern, better manned, better equipped and designed for maneuver combat under nuclear-threatened conditions. This is your source for the tactics, equipment, force structure and theoretical underpinnings of a major Eurasian power. Here's what the experts are saying: A superb baseline study for understanding how and why the modern Russian Army functions as it does. Essential for specialist and generalist alike. -Colonel (Ret) David M. Glantz, foremost Western author on the Soviet Union in World War II and Editor of The Journal of Slavic Military Studies. Congratulations to Les Grau and Chuck Bartles on filling a gap which has yawned steadily wider since the end of the USSR. Their book addresses evolving Russian views on war, including the blurring of its nature and levels, and the consequent Russian approaches to the Ground Forces' force structuring, manning, equipping, and tactics. Confidence is conferred on the validity of their arguments and conclusions by copious footnoting, mostly from an impressive array of primary sources. It is this firm grounding in Russian military writings, coupled with the authors' understanding of war and the Russian way of thinking about it, that imparts such an authoritative tone to this impressive work. -Charles Dick, former Director of the Combat Studies Research Centre, Senior Fellow at the Defence Academy of the United Kingdom, author of the 1991 British Army Field Manual, Volume 2, A Treatise on Soviet Operational Art and author of From Victory to Stalemate The Western Front, Summer 1944 and From Defeat to Victory, The Eastern Front, Summer 1944. Dr. Lester Grau's and Chuck Bartles' professional research on the Russian Armed Forces is widely read throughout the world and especially in Russia. Russia's Armed Forces have changed much since the large-scale reforms of 2008, which brought the Russian Army to the level of the world's other leading armies. The speed of reform combined with limited information about their core mechanisms represented a difficult challenge to the authors. They have done a great job and created a book which could be called an encyclopedia of the modern armed forces of Russia. They used their wisdom and talents to explore vital elements of the Russian military machine: the system of recruitment and training, structure of units of different levels, methods and tactics in defense and offence and even such little-known fields as the Arctic forces and the latest Russian combat robotics. -Dr. Vadim Kozyulin, Professor of Military Science and Project Director, Project on Asian Security, Emerging Technologies and Global Security Project PIR Center, Moscow. Probably the best book on the Russian Armed Forces published in North America during the past ten years. A must read for all analysts and professionals following Russian affairs. A reliable account of the strong and weak aspects of the Russian Army. Provides the first look on what the Russian Ministry of Defense learned from best Western practices and then applied them on Russian soil. -Ruslan Pukhov, Director of the Moscow-based Centre for the Analysis of Strategies and Technologies (CAST) and member of the Public Council of the Russian Federation Ministry of Defense. Author of Brothers Armed: Military Aspects of the Crisis in Ukraine, Russia's New Army, and The Tanks of August.
  c-uas laser-guided rocket systems: Air Base Defense Alan J. Vick, Sean M. Zeigler, Julia Brackup, John Speed Meyers, 2020-07-15 The gap between the growing cruise and ballistic missile threat to U.S. Air Force bases in Europe and the U.S. capacity and capability to counter the threat is worrisome. This report assesses alternative Air Force courses of action.
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