Search and rescue (SAR or S&R) is the search for and provision of aid to people who are in distress or imminent danger.
The general field of search and rescue includes many specialty sub-fields, typically determined by the type of terrain the search is conducted over.
These include mountain rescue; ground search and rescue, including the use of search and rescue dogs; urban search and rescue in cities; combat search and rescue on the battlefield and air-sea rescue over water.
All types or naval, maritime, fluvial operations or activities including fishing, sport sailing, logistical, cargo shipping, sea-river services as oil tankers bunkering, merchant shipping, military vessels patrols, maritime border control, anti-piracy law enforcement operations can all be dangerous activities that involve an extremely high level of risk at any level and in any moment.
The Search and Rescue (SAR) system quickly becomes the primary safety net for all of these sectors and person involved directly or indirectly in these activities.
When dealing with emergencies, vessel-shipping operators, should understand three important components of the SAR system: alerting, detection and response.
The alerting stage represents a significant level of urgency for SAR providers and carries with it a well-structured course of action(s) designed to bring a marine incident to a successful conclusion.
All shipping vessels should be aware of the key elements of the SAR alerting system and know how to activate it for a quick response.
Joint Rescue Coordination Centers (JRCCs) and Maritime Rescue Sub-Centers (MRSCs) that provide search and rescue operations 24 hours a day, 365 days of the year in support of maritime activity in any nations waters is a must;
Some MCTS centers across the World are equipped with Direction Finding (DF) capabilities. The primary function of DF is to provide assistance to vessels in distress or other emergency situations.
Vessels should be aware that this is not a navigation service, but rather an aid for detecting location by providing a line of bearing from the DF site. It can also confirm a line of bearing for vessels that are uncertain of their location. MCTS centers will, on request, transmit signals on a frequency that will enable fish harvesters to take a bearing from their own DF.
EPIRBs can serve a dual function of alerting and detection. Once an EPIRB is activated (automatically or manually), the battery-powered source allows the EPIRB to continue to transmit for up to 48 hours.
An interface feature with a built-in GPS system on new generation EPIRBs provides an automatic fixing in latitude and longitude. With or without this feature, there is a continuous transmission of coded signals that allows the SARSAT system to fix positions and obtain information through the unique identification number. A properly registered EPIRB will assist SAR in identifying the vessel and owner.
Search and Rescue Transponders (SARTs) are designed to help locate vessels in distress or survivors in a life raft. They can be detected by radars carried onboard most vessels. SAR and multi-purpose aircrafts are usually equipped with radar to detect SARTs as a function of their response capability.
Radar reflectors should be properly placed clear of obstruction and as high as possible onboard a vessel. This provides additional assurance of detection during times of poor visibility and darkness when radar searches are sometimes the only option available to SAR providers.
Visual detection is ultimately the last step in the process of response before rescue or any type of assistance is provided.
There are steps you can take to prepare for visual detection during an emergency situation:
While survival equipment has the primary function of providing buoyancy, its colors make an excellent target for detection in the event of a rescue operation. Fish harvesters should wear protective clothing, such as rain gear, that reflects colors that are easy to detect, such as yellow or orange. Black and other dark colors blend in with surrounding environment. Similarly, all maritime & river vessels should be a color that will assist with detection in emergency situations.
Implementation of International Conventions, International Joint Agreements and domestic legislation provide protection for all mariners who find themselves in danger at sea. It is mandatory for a vessel to respond to a distress situation and failure to do so, without just cause, has legal consequences.
The use of SAR resources involves many considerations relating to the level of the emergency unfolding at any given time. Primary SAR vessels and aircraft are specifically designed, equipped and crewed for SAR purposes as the “Technokontrol-Maritime King Shark Model III & XI and the Technokontrol Aviation-“Amphibious Eagle Eyes III” whom are both long range, especially designed and made, extremely well equipped for SAR based operational platforms.
These resources are strategically located and positioned in areas where activity is highest. A pre-determined response capability makes these resources available the moment an alert is received.
The rescue coordinator at each JRCC/MRSC assesses all alert situations for an appropriate response. All SAR operations, including search planning, resource tasking and rescue coordination are conducted under the authority of the rescue coordinator who assumes the role of the Search Mission Coordinator (SMC).
The JRCC or MRSC that will be assuming SMC responsibilities will be determined by the area of responsibility assigned to that centre. Vessels can activate the SAR system at any level and do not have to be preoccupied with determining which centre they should alert for assistance.
Response to alerts may come from many areas of the marine community.
The type of response could range from a dedicated SAR resource to a private vessel operating a close distance to the vessel in distress.
The degree of urgency, the type of emergency, the availability of resources, and the location are all key elements that determine the type of response in a given situation. Some of the most common alerts received are:
Distress alerts command the highest degree of urgency in the maritime community and warrant the greatest level of response. For the most part, response to such situations is spontaneous and based on a long-standing system of tradition, conventions, agreements and moral and legal obligations.
Response is often well underway before the alert is received at the JRCC/MRSC. Mariners, knowing their responsibility and having the means to carry it out, often proceed to assist in an appropriate manner.
MCTS centers enhance the response with communications and traffic systems capabilities. "Mayday relay" broadcasts through the Coast Guard radio, NAVTEX broadcasts and Enhanced Group Calling (EGC) through the Inmarsat C satellite system help to broaden the response network.
Mountain SAR Search & Rescue refers to search and rescue activities that occur in a mountainous environment, although the term is sometimes also used to apply to search and rescue in other wilderness environments. The difficult and remote nature of the terrain in which mountain rescue often occurs has resulted in the development of a number of specific pieces of equipment and techniques.
Helicopters are often used to quickly extract casualties, and search dogs may be used to locate them.
Mountain rescue services may be paid professionals or volunteer professionals. Paid rescue services are more likely to exist in places with a high demand such as the Alps, national parks with mountain terrain and many ski resorts.
However, the labor-intensive and occasional nature of mountain rescue, along with the specific techniques and local knowledge required for some environments, means that mountain rescue is often undertaken by voluntary teams.
Ground search and rescue is the search for persons who are lost or in distress on land or inland waterways.
Traditionally associated with wilderness zones, ground search and rescue services are increasingly required in urban and suburban areas to locate persons with Alzheimer's disease, autism, dementia, or other conditions that lead to wandering behavior.
Ground search and rescue missions that occur in urban areas should not be confused with "Urban SAR", which in many jurisdictions refers to the location and extraction of people from collapsed buildings or other entrapments.
The use of dogs in search and rescue (SAR) is a valuable component in wilderness tracking, natural disasters, mass casualty events, and in locating missing people. Dedicated handlers and well-trained dogs are required for the use of dogs to be effective in search efforts. Search and rescue dogs are typically worked by a small team on foot, but can be worked from horseback.
Search and rescue dogs detect human scent. Although the exact processes are still researched, it may include skin grafts (scent-carrying skin cells that drop off living humans at a rate of about 40,000 cells per minute), evaporated perspiration, respiratory gases, or decomposition gases released by bacterial action on human skin or tissues.
From their training and experience, search and rescue dogs can be classified broadly as either air scenting dogs or trailing (and tracking) dogs. They also can be classified according to whether they scent discriminate, and under what conditions they can work. Scent discriminating dogs have proven their ability to alert only on the scent of an individual person, after being given a sample of that person's scent. Non-scent discriminating dogs alert on or follow any scent of a given type, such as any human scent or any cadaver scent. SAR dogs can be trained specifically for rubble searches, for water searches, and for avalanche searches
Air scenting dogs primarily use airborne human scent to home in on subjects, wereas trailing dogs rely on scent of the specific subject. Air scenting dogs typically work hoff-lead, are non-scent-discriminating and cover large areas of terrain.
These dogs are trained to follow diffused or wind-borne scent back to its source, then to indicate their find (for example, by sitting with the lost party and barking until the handler arrives, or by returning to the handler and indicating contact with the subject, and then lead the handler back to the subject). Handler technique, terrain, environment (vegetation), and atmospheric conditions (wind speed and direction, temperature, humidity, and sky conditions) determine the area covered by air scenting dogs, although a typical search area may be 40–160 acres and scent sources can be detected from a distance of 1/4 mile or more.
Tracking dogs will typically work on lead and will mostly have their nose to the track following ground disturbance. A good tracking dog will be able to work through a variety of terrain as well as successfully maneuver turns and "double backs" that a subject might take.
A trailing dog is scent specific, can also have his/her head up using some of the air scent techniques to find the subject. Trailing dogs will work on and off lead, and trailing dogs will venture off the actual path that a subject took should a scent pool be discovered. This is not to be considered an error by the dog, as they are following a specific scent and working through all other human scents to get to the source.
In addition to these types of dogs, some teams cross train dogs in both trailing and air scenting and use them as scent specific "area searches". Typically these dogs are worked in an area that an air scent dog would work, but are capable of ignoring other search teams and other people in or near the assigned search area. When deployed this way, these air scenting dogs require a scent article as does a trailing dog.
Specific applications for SAR dogs include wilderness, disaster, cadaver, avalanche, and drowning search and rescue or recovery.
In wilderness SAR applications, air scenting dogs can be deployed to high-probability areas (places where the subject may be or where the subject's scent may collect, such as in drainages in the early morning) whereas tracking/trailing dogs can be deployed from the subject's last known point (LKP) or the site of a discovered clue. Handlers must be capable of bush navigation, wilderness survival techniques, and be self-sufficient. The dogs must be capable of working for 4–8 hours without distraction
Disaster dogs are used to locate victims of catastrophic e.g., by wildlife). or mass-casualty events Many disaster dogs in are trained to meet the Emergency Management Agency K9 standards for domestic or international deployment; advanced agility and off-lead training are prerequisites reflecting the nature of these dogs' application. Disaster dogs rely primarily on air scent, and may be limited in mass-casualty events by their inability to differentiate between survivors and recently deceased victims.
Human Remains Detection (HRD) or cadaver dogs are used to locate the remains of deceased victims. Depending on the nature of the search, these dogs may work off-lead (e.g., to search a large area for buried remains) or on-lead (to recover clues from a crime scene). Air scenting and tracking/trailing dogs are often cross-trained as cadaver dogs, although the scent the dog detects is clearly of a different nature than that detected for live or recently deceased subjects.
Cadaver dogs can locate entire bodies (including those buried or submerged), decomposed bodies, body fragments (including blood, tissues, hair, and bones), or skeletal remains; the capability of the dog is dependent upon its training.
Urban search and rescue (US&R or USAR), also referred to as Heavy Urban Search and Rescue (HUSAR), is the location and rescue of persons from collapsed buildings or other urban and industrial entrapments.
Due to the specialized nature of the work, most teams are multi-disciplinary and include personnel from police, fire and emergency medical services. Unlike traditional ground search and rescue workers, most US&R responders also have basic training in structural collapse and the dangers associated with live electrical wires, broken natural gas lines and other hazards.
Urban Search and Rescue involves the location, extrication, and initial medical stabilization of victims trapped in confined spaces due to natural disasters, structural collapse, transportation accidents, mines and collapsed trenches.
The causes of SAR incidents can be categorized as accidental and deliberate.
Structural collapse incidents can comprise unstable or collapsed structures in an unsafe position. Usually collapse incidents leave voids inside the debris that can result in numerous casualties trapped under large amounts of very heavy and often unstable debris.
SAR services can be faced with complex rescue operations within hazardous environment. Incidents experience shows that people are often found alive many hours and days after rescue operations commence, and the corresponding services should be planned accordingly.
SAR teams in different countries may be organized in a variety of ways, but they are often associated with firefighting services.
The increasingly complex methods and procedures, and the modern ability to bring in teams from far afield has brought a very strong drive for standardization within nations and internationally, most obvious in the role of the United Nations' International Search and Rescue Advisory Group(INSARAG) in large natural disasters.
Urban search-and-rescue is considered a multi-hazard discipline, as it may be needed for a variety of hazards including earthquakes, cyclones, storms and tornadoes, floods, dam failures, technological accidents, terrorist activities, and hazardous materials releases.
While earthquakes have traditionally been the cause of US&R operations, terrorist attacks and extreme weather such as tornadoes and hurricanes have also resulted in the deployment of these resources.
Combat search and rescue (CSAR) are search and rescue operations that are carried out during war that are within or near combat zones.
A CSAR mission may be carried out by a task force of helicopters, ground-attack aircraft, aerial refueling tankers and an airborne command post.
Combat search and rescue (CSAR) are search and rescue operations that are carried out during war that are within or near combat zones.
The life of each soldier is important, and combat search and rescue has become one of the most vital operations in modern warfare. In fact, CSAR units are among the first to arrive behind enemy lines after combat operations.
All Departments of Defense must try to appoint their lead in CSAR operations. Whenever an aircraft goes down or a soldier is isolated away from his unit, the Air Force CSAR comes in to locate, establish contact and attempt to recover him.
Other operational tasks of the CSAR units include:
Currently, the Air Force has two operational systems that use two different aircraft. The most common is a short landing, hardcore military aircraft called the HC-130 plane for long-range search operations in low-to-no threat scenarios.
It also provides in-flight refueling for the search helicopters to extend the mission's range.
The helicopter is for search and recovery in a medium-threat environment. Each operation can perform in both day and nighttime scenarios. In the event of an emergency medical situation, the helicopters drop paramedic rescuers if the enemy threat is low enough.
In order to minimize the threat, support aircraft launch air-to-air and air-to-ground missiles and gunfire to keep the enemy away.
Authenticating the source of a distress call is the most important step in a CSAR mission. With the enemy's ability to monitor and jam radio frequencies, discreet ground-to-air signals are vital to the successful extraction of a soldier in need.
After communication is established, the CSAR unit needs to get information on the physical well-being of the soldier first. After that, the authentication process is initiated.
This typically entails relaying the soldier's name and rank, as well as unit numbers, colors and letters. Isolated personnel won't receive assistance until authentication is complete. Authentication details are never given in full over the radio as they can be stolen by the enemy.
The CSAR team will ask the soldier to add, subtract or multiply specific digits in the authentication code and relay that information back. This allows the soldier to reuse the codes later without being compromised.
Air-sea rescue (ASR) refers to the combined use of aircraft (such as flying boats, floatplanes, amphibious planes, helicopters and non-amphibious helicopters equipped with hoists) and surface vessels to search for and recover survivors of aircraft downed at sea as well as sailors and passengers of sea vessels in distress.
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Rescue comprises responsive operations that usually involve the saving of life, or prevention of injury during an incident or dangerous situation.
Tools used might include search and rescue dogs, mounted search and rescue horses, helicopters, the "jaws of life", and other hydraulic cutting and spreading tools used to extricate individuals from wrecked vehicles.
Rescue operations are sometimes supported by special vehicles such as fire department's or EMS heavy rescue vehicle.
All terrain SAR Services from city centers to deserts, jungles or even battle zones.
Search & Rescue Products, Technologies, Training, Industrial, Military, Naval, Medical and Servicing Programs,
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TK-Maritime & Elite Black Night Viper Search & Rescue Services offers various training opportunities but they all have one thing in common — HANDS ON TRAINING.
We believe the best experience for our customers and friends is to actually use safety equipment which you hope you'll never need.
This means that our trainers will give you an opportunity for:
Training Certifications For:
(Commonly presented in a 2 to 5 day course)
SAR management and SAR field response has changed greatly in the past few years. Searches no longer last for days or weeks. Usually they are over in 24 to 48 hours. This Course and Handbook recognizes these changes and focuses on current SAR field “best practices” and techniques.
Guidance to SAR field responders on the best practices and techniques to use and is designed to be used by both new SAR field responders and experienced SAR field and management personnel.
Information about the duties and tasks of SAR field responders.
Current information on SAR field responder clothing, equipment, and how to best utilize these items.
Details on the latest search techniques, what methods work best, how to search in the field, and how to get the best results during a search.
Information on SAR specialties such as tracking, survival, emergency medical care, and subject packaging and transport.
How to Search and How to Lead a Search Team
(Commonly presented as a 2 or 3 day course.)
Searching is the primary activity in search and rescue (SAR) in that a missing person has to be found before a rescue may be carried out. Not uncommonly, searching is time consuming and may be boring and frustrating. High quality searching requires a variety of skills beyond the basic ones needed for effective work in the environment being searched. Attainment of these skills can reduce frustration and make the act of searching more meaningful.
Search success is dependent upon a combination of search field skills, search field leadership and search planning. The totality of a search requires that all parts are carried out properly for the benefit of the missing person and the satisfaction of all those involved in the operation.
It is not concerned with management and planning which are properly left to other courses. The skills being considered include:
Skills for the individual – these are the skills needed in order to be able to perform effectively as a member of a search party. They include Techniques of Observation, Terrain Analysis in the Field, Field Sketching and recording what has been seen and found.
Search Team Leader skills – these are the skills needed in order to be able to perform as a leader of a search team. They include the individual skills outlined above plus leadership skills. Understanding the "Six Step Process" is desirable as is an appreciation of how the style of searching relates to the current phase on the operation.
Leadership is required at all levels in the process of bringing a search to a satisfactory conclusion. The format of this course must be considered as “Work in Progress” and further developments are to be expected in the not too distant future. It would seem that, over the past 25 years or so, much effort has been expended on search management and search planning. Search Field Skills have been largely neglected or given relatively little attention. This Course attempts to consider the skills that impact on “How to Search” and the levels of leadership necessary to ensure that the quality of field work is enhanced.
Team Leader Job, Duties, Responsibilities; Search Tactics; Search Skills (Quality Assurance of Searching); Investigative Skills; Documentation Skills; Communication Skills; Evidence Recognition, Protection Skills; Brief and Debrief Skills; Team Leader Decision Making: Use of The “Six Steps”; Search Team Leaders Roles and Responsibilities While Executing Type 1, 2, 3, Or 4 Techniques; Monitoring Well-Being of Team Members Skills; Leadership Skills; Tactical Decision Games-Scenarios and Use of The Six Step Process.
This 24 hour seminar (with optional 8 hour field lab) is based on the philosophy that all searches have a common beginning. This initial response phase might last several hours to several days. Characteristics of the phase include an emphasis on hasty searching and investigation, relatively small number of resources and agencies, a limited overhead staff, and a loosely defined search area. But regardless of how large or complex a search ends up being, the actions that should be taken in the beginning are identical, and crucial to success. Effective initial actions maximize subject survivability and detection, minimize the number of incidents that grow into costly large searches, and establish a firm foundation for those incidents that unavoidably become expanded response. Search Management Systems thoroughly explains appropriate actions to take in the initial response phase; and it also describes the role and function of the incident commander, regardless of incident complexity.
Example of typical course Agenda,
At the completion of this search and rescue training, you will be able to:
Most searches are resolved in hours rather than days, with the remaining small percentage expanding into multi-day events.
Now that you’ve obtained fundamental information regarding the nature of the incident, have determined urgency, understand the application of resources, and can predict likely subject behavior, the next step is to determine what actions are justified. This unit explores the steps to take in determining appropriate actions, including scenario analysis, prioritizing alternatives, classifying by mobility and responsiveness.
At the conclusion of this search and rescue training unit, you will be able to:
At the conclusion of this search and rescue training unit, you will be able to:
1. Utilize travel aids, travel barriers, and passages to define and confine a search area having a high POA (Probability of Area)
Travel aid: Natural and human-made features facilitating the subject’s direction of movement.
Travel Barrier: Natural and human-made features impeding or deflecting the subject’s direction of movement.
Passages: Convergence of travel aids and/or barriers.
So far we’ve explored critical reporting party information, appropriate responses, determining urgency, and through scenario analysis identifying high priority task and the resources to accomplish these task.
Unit 13 focused on situations where the subject might be injured or otherwise in need of immediate assistance, and perhaps of limited mobility. This unit focuses on situations where defining and containing the search area is desirable because the subject maybe mobile.
A review of the original theory for determining where to search will be helpful for understanding the procedures recommended in this workbooks. That theory was introduces in the original Managing the Search Function (MSF) course and was subsequently adopted in successor courses.
Defining the Search area in the search and rescue training SMS course advocates the methodology explained as superior to the MSF, and successor courses, process in that it defines a reasonably sized search area confinement effectively minimizing area expansion.
Select one member of the team to be Incident Commander. The role of this person is to keep the process moving, and to make decisions when the group isn’t reaching consensus. Organize. Delegate responsibilities, and share information. Don’t get bogged down (remember Jane may need assistance).
1. Begin developing a missing subject profile using the “Missing Subject Profile Worksheet” in your workbook.
2. Determine the urgency by completing the “Urgency Determination Worksheet”.
3. Identify and prioritize scenarios that might have caused Jan’s loss, and her possible subsequent activities, by completing the “Scenario Worksheet”. Develop a minimum of 5 scenarios.
4. Consider and prepare for possible contingencies.
5. Develop goal(s), objectives, and tasks for this incident. Prioritize the strategies, and determine the number and types of resources needed to accomplish these strategies. Record the information by completing the “IAP Worksheet”.
6. Define the search area and establish confinement following the below steps, and with these assumptions:
7. You have 40 minutes to complete this search and rescue training exercise.
(Commonly presented as a 1 day course)
Goodman and Associates announce a new follow-on course to the popular Search Management System (SMS) course. SMS PRACTICUM is an eight-hour seminar utilizing case studies to explore and reinforce the Search Management System (SMS) course principles. Designed to refresh and update SMS course graduates (see below for description of the SMS course).
The SMS PRACTICUM incorporate all the concepts taught in SMS, but from an application – not lecture, rather perspective. The course starts with using SCORPA as the initial report. SCORPA and the Field Notebook for the initialresponse.
Using another student’s Field Notebook (mimicking passing on the Field Notebook to the next IC) to develop the Initial Action Plan (IAP) for the 2nd Operational Period including and the use of the ICS-202. No handouts of clue information will be handed out (the instructor will give all clues verbally and by PPT). The students will have to record all clues in the Unit Log section of their Field Notebook. Later in the course the students will develop a complete large incident IAP including using an ICS-215.
In the final exercise (10 day search) the class will develop Probability Of Area (POA) as well as manage operational periods IAPs. Information to help the attendees develop the IAPs will be given by the instructor. Each team will be given all clues found during the just ending operational period. This will prevent the students from reacting to clues; however, it will be using the clues to develop objectives and assignments for the next period.
Field Notebooks, ICS forms, etc., will be included as well as laminated maps used during the exercises.
(Presented as a 2- or 3-day SOP & checklist driven management course.)
Most SAR missions are received by personnel who have little or no background/knowledge of SAR, yet because they are the responsible agency, they must begin actions. We have developed a "best practices" SOP (6 steps) and field guide that leads the course participant through the "must do" tasks for the first operational period (0 to 24 hours).
This course is based on the philosophy that all searches, whether short or long term, have a common beginning, called the "initial response phase." Regardless of how large or complex a search ends up being, the management of the initial response phase is identical; and crucial to its success.
This "initial attack" course introduces concepts, but uses no numbers or math calculations. Surveys conducted in the US, UK and Canada show that most missions are resolved within 24 hours (70 to 80% of the time). This course focuses on the first operational period.
This course and text focuses on the management of the initial response, and is designed to provide a clear, systematic, practical approach. The course materials do not dwell on theory or discussion of different and sometimes conflicting concepts. The materials are designed for the search practitioner (the deputy sheriff, park ranger, police officer, fire department officer, search team leader) whose primary concern is what to do when acting on a report of a lost person. This course also recognizes that it is impossible to predict when a search will grow into a major incident, and therefore includes actions to take so as to establish a firm foundation and a smooth transition should an expanded response become necessary. All procedures and techniques in these courses are field proven and current.
NOTE: A 2-day advanced course focuses on the "second operational period and beyond." The advanced course focuses on the incident action planning process that usually begins as the mission continues and more experienced/knowledgeable personnel arrive to run the show. This course educates participants on all the latest in search theory and tactics. The basic course is SOP driven, and the advance course is process driven.
(Commonly presented as a 2 or 3 day course)
Managing urban search and rescue operations can be amongst the most difficult and challenging Search and Rescue (SAR) tasks the experienced Incident Commander may ever be asked to undertake. Yet, no text or course has previously existed that focuses and adapts the principles of wilderness/rural search management on the urban situation.
Though the general Search principles that we have learned for the wilderness setting will generally apply to the urban area, specific procedures used during most wilderness SAR operations will not directly apply to the typical urban SAR incident. The wilderness procedures for containment, travel aides, subject behavior and geographical barriers do not readily translate into workable techniques for the urban SAR incident.
Additionally, the urban environment of concrete and asphalt also adds a complexity to Urban Search planning. Travel distances are often much greater in the Urban setting. Travel on pavement is much easier than through fields and countryside. The presence of Rapid Transit Systems, Buses and Taxi Cabs make it possible for the missing individual to be out of the search area before the Search even gets started. Couple this with the significant possibility of potential criminal activity, and of large scale public involvement, and the incident can quickly expand into one that is very difficult to manage in an organized and effective manner.
The purpose of this course and text is to address urban search. It is based on the rural/wilderness oriented “Search Management for the Initial Response Incident Commander” text and course and has been developed and written by a panel of urban search management practitioners. This text and course utilizes “the Six Step Process,” a recognized approach to tackling an operational problem. It specifies a sequence of steps to take from the point at which the problem first manifests itself up to the implementation of the action needed to resolve it.
As in the rural or wilderness setting, the initial response to the urban incident should also be rapid, protect the scene, provide a quick analysis and alert of the situation, and move to quickly confine the movement of the subject. (Remember, “search is an emergency.”) In this course you will learn that it is imperative that the “1000 foot rule” be observed on every search. The 1000 foot circle around the point last scene must be the first and most thoroughly searched segment (and the subject’s residence should be searched a number of times).
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