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Physical Lag Times: The Use Of Deadly Force
Interesting read----------------
Physical Lag Times and Their Impact On The Use Deadly Force Previously published in The Tactical Edge, Spring 1995 By: Captain Michael R. Hillmann, Los Angeles Police Department INTRODUCTION Routinely, law enforcement supervisors, administrators, use of force review boards and civilian jurors are required to evaluate police officers and their application of deadly force. Oftentimes, from an evaluator's perspective, the task of deciding whether an officer acted appropriately or not is a difficult one at best. In all cases, individual state of mind of the officer serves as the foundation for determining "appropriateness of actions," while the law and policy represent key precepts that guide police officers in making their decision to shoot or not shoot. Add to this decision-making criteria, human factors, such as, perception time, brain lag and reaction time and the problem of incident evaluation becomes considerably more complex. It is recognized that the time lags involving perception time, brain lag and reaction time are not an excuse for improper tactics or poor judgment. Police officers must avoid, when possible, placing themselves in positions of jeopardy where they are left with no other alternatives than to shoot. However, in order to balance "no action" with "the duty to perform," one must remember that police officers are trained and practiced to protect the public and are expected to be proactive in pursuit of their duty. Therefore, police officers may find themselves in perilous positions where the decision to utilize "deadly force" is predicated on the circumstances created by the suspect, "it is the suspect who initiates the action and the officer who responds"4 . It is the intent of this article to focus on the physical time lags involving, perception time, brain lag, and reaction time, their definitions, and how they affect a police officer's decision to utilize deadly force. STATEMENT OF THE PROBLEM Occasionally, conflicts will arise during post incident analysis of incidents involving the use of deadly force, between an officer's recollection, statements and certain physical evidence. Please consider the following situations: 1. "The police officer shot an assault with a deadly weapon (ADW) suspect after he made a movement consistent with arming himself. The suspect was determined not to have a gun (after the fact). At the time however, the officer reasonably believed the suspect was armed with a gun and about to inflict great bodily injury or death upon him". 2. "The officer shot an assault with a deadly weapon (ADW) suspect, who moments prior, was observed to be armed with a pistol. After discarding the pistol, the suspect ran a few feet from the officer's position toward an unsecured area. At the time the officer believed an additional firearm could have been retrieved and utilized against him or other officers present". 3. "The officer stated he discharged his weapon when the suspect's front chest was facing him, however, the evidence indicated the bullet entered the back of suspect's upper body". PHYSICAL TIME LAG STUDIES Before an analysis of the above situations can take place, certain parameters must be established in order to understand the impact of "physical time lags" affecting police officers. Therefore, for the purpose of discussion only, assume the following facts to be true: (1) Police officers generally attempt to utilize proper tactics, are trained in the law, deadly force policy and are proficient in the use of their firearm; (2) Police officers are lawfully entitled to be where they are under the circumstances and (3) Police officers are honest and forthright in reporting their observations and actions. Consider a Department of Transportation, Federal Aviation Administration, Civil Aeromedical Institute Physiological Operations study conducted regarding collision avoidance: "Inherent in the body are three physical time lags which are critical in high speed flight. Perception Time (0.1 second) The time required for an impulse to be generated in the eye and transmitted to the brain. Brain Lag (0.1 second or more) The time required for a decision. Reaction Time (0.4 to 0.8 second) The time required for an impulse to travel from brain to hand, feet etc. which triggers some physical reaction to the original eye stimulus. It is not unusual to take up to five seconds before the aircraft begins evasive action" (considering collision avoidance)". There have been other studies regarding physical time lags, specifically relating to driver training. For example, the Los Angeles Police Department's Driver ing Unit Lesson Plan2. has defined "reaction time" as follows: "The time that elapses between the driver's perception/decision and the time the brakes are applied or the steering wheel turned. The average human reaction time, under these circumstances is 0.75 of a second". It is significant to note, the conclusions of both independent studies arrived at an average reaction time of between 0.75 to 0.8 of a second. The Federal Aviation Administration, "High Speed Flight" physical time lag study in particular, is applicable to a law enforcement use of force setting. For example, a police officer, believing he is confronted with a life-threatening situation, waits to see the suspect's gun before he draws and discharges his service pistol. Under these circumstances, if we apply the above physical time lags we would see that the officer would probably be shot before he could remove his weapon from his holster. In this specific case, the officer's time for reaction starts after the suspect's weapon is observed. The suspect, already committed to action, is able to draw and shoot before the officer can effectively respond. The officer's reactive measures e.g., "return fire," could be as much as 1.0 second or more behind the suspect's discharge of two rounds. Whether a police officer's pistol is holstered or unholstered makes little difference in the above situation. When the officer's pistol is unholstered and in a properly sighted, shooting position, we may see a slight reduction in reaction time. Unfortunately, the best that can be expected is a "tie" between the officer and the suspect. Considering both the suspect and police officer would be shooting at each other, in all probability both will be shot. Next, factor into the above situation the following: The officer, (1) must be accurate in target acquisition, (2) is only allowed to continue applying deadly force long enough to stop the threat, (3) must continuously assess the threat, then (4) consciously decide to stop shooting when the threat stops. This entire process involves all of the aforementioned physical time lags of perception time, brain lag and reaction time in order to accomplish. Simply stated, the officer perceives that the threat has been stopped, transmits that observation to the brain, decides to cease shooting, then physically must stop pulling the trigger. THE LAW A police officer is not required by law or policy to wait to see a gun before he discharges his firearm in self-defense or defense of others when he reasonably believes, based upon the circumstances, that he is facing an imminent threat of great bodily injury or death. Whether or not it is determined after the fact that the suspect actually was reaching for a gun, does not invalidate the officer's actions based upon the reasonable belief that he was about to be shot and his personal knowledge of the physical time lags involved. In recent years, the problems associated with use of force decisions by police officers have not gone unnoticed by the courts. It is acknowledged that Police officers are forced to be able to quickly assess situations and make split second decisions involving the use of deadly force as reflected in the U.S. Supreme Court case, Graham v. Connor 3. : "The reasonableness of a particular use of force must be judged from the perspective of a reasonable officer on the scene and its calculus must embody an allowance for the fact that police officers are often forced to make split-second decisions about the amount of force necessary in a particular situation". .
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Quick Kill Pistol https://www.youtube.com/user/azqkr "The mind is the limiting factor" |
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#2
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part 2
OTHER "TIME" FACTORS
In the course and scope of employment as a policeOTH officer, supervisor and manager, the author has had the opportunity to review several hundred officer involved shooting situations for training, officer safety, administrative use of force review boards, courtroom presentations and internal discipline. Following these examinations involving hundreds of investigative hours, personal experience, evaluation of suspects actions and interviews of "shooting" police officers, it has been the author's observation that: 1. A suspect armed with a pistol, secreted in his waistband, can draw and fire at least two shots within 1.0 to 1.5 seconds. 2. Approximately 90% of all officer involved shooting incidents take place within a three-second-time period. POST INCIDENT ANALYSIS As mentioned initially, during post-incident analysis, oftentimes conflicts arise between an officer's statement and the actual evidence. Please consider the following additional scenarios and explanations. 1. An officer stated during the officer involved shooting interview he discharged his firearm in defense of himself when the suspect was facing him. The forensic evidence indicated however, the bullet track was posterior to anterior. Under the specific circumstances, perception time, brain lag and reaction time of the officer, combined with continued movement of the target (suspect), may have accounted for the inconsistency between the officer's initial statement and the actual evidence. 2. A suspect believed to be armed with a handgun is chased by a police officer. The suspect stops, turns to his right and partially faces the officer. The suspect removes what appears to be a handgun from his waist, extends his right arm, while turning to his right. He then makes a movement consistent with assuming a shooting position. The police officer, in pursuit, perceives the threat (0.1 second), stops, assesses that he is in imminent danger of being shot, decides on the appropriate use of force and makes the decision to shoot (0.6 to 0.8 or more seconds). At this point, the suspect is continuing to move, turn, bend, squat, run, climb, throw, stop etc.. In the beat of a heart, the officer makes the decision to shoot, based upon the belief of imminent threat to life. He acquires the target, aligns his front and rear sight and squeezes the trigger twice in rapid succession (1.0 second or more). The suspect falls to the ground shot in the back. Under the circumstances, the officer's perception of the threat, decision to shoot plus actual shooting time, required at least 1.0 second or more to implement. During this period of time the officer observed certain facts and decided on a course of action while the suspect's movement continued. In closer examination, at the time the officer actually commenced shooting one would probably find that the suspect was turning back, toward his left when the bullet(s) impacted . During the post incident, officer interview however, the officer may have recalled he discharged his weapon while the suspect was facing him, when in reality, the suspect actually was in the process of turning away from him. This discrepancy does not mean the officer was being untruthful at the time of the interview. Quite the contrary, the physical time lags affecting the officer, his recall of the suspect's position at the moment he decided to shoot combined with the continuous movement of the suspect after he started shooting, may have accounted for the discrepancy between the officer's belief as to the position of the suspect when he shot and the actual physical evidence. In other words, the officer's reaction lagged behind the actions of the suspect. It is also recognized that many factors can affect the above examples; tactics, positioning, movement of the officer, accuracy and availability of cover, etc.. The point is, the physical time lags (perception time, brain lag and reaction time) combined with the movement of both officer and target must be equally considered prior to formulating opinions of what occurred. As indicated previously, "crisis decisions," i.e., the use of deadly force, require time (perception, brain lag and reaction time) in order to implement. Just as it takes time for the police officer to perceive, decide and react to an impending threat, it also takes time for the officer to perceive, decide and actually stop his reactive measures. It has been the author's experience to note that criticism has occasionally arisen regarding an "alleged" excessive number of rounds being fired by a single "shooting officer". An officer who is shooting to stop the actions of the suspect is required to continuously assess the threat throughout the event, and when, in his opinion the threat is stopped, must "de-escalate" his force. Under these circumstances, the sequence of de-escalation requires time to implement. It is not unusual to find that an officer may have attempted to cease fire after 2 to 4 shots (depending upon the weapon) but, in reality discharged 10 shots or more. In the final analysis, this alleged "excessive" number of rounds discharged may not have been excessive at all, and may be attributed to the physical time lags involved in the officer's deciding to de-escalate response. In short, the officer may have been unable to immediately discontinue shooting after the initial 2 to 4 shots, due to the perception time, brain lag and reaction time required to stop the action.
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Quick Kill Pistol https://www.youtube.com/user/azqkr "The mind is the limiting factor" |
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part 3
PHYSICAL TIME LAGS AND DISTANCE
A suspect's proximity from a deadly weapon (e.g., arms reach) and a police officer's distance from a suspect (lunging distance) coupled with the physical time lags required for defensive reaction, can impact the decision to utilize deadly force. Under specific conditions, a police officer may have no other tactical options (e.g., cover, concealment, position etc.) and the threat of serious bodily injury is "reasonably" present. The officer may be forced into a deadly force situation in order to stop the suspect (e.g., movement towards arming himself with a weapon). Officers are not expected to allow suspects to arm themselves and then set about physically engaging and disarming them. The law and use of force policies do not require officers to use the same or lesser amounts of force to overcome a suspect's resistance. Police officers are required to utilize that amount of force which is "reasonable" to overcome resistance. "Grappling" with an armed suspect not only increases the risk to the police officer, but tends to exacerbate and escalate the situation. SUMMARY OF TECHNICAL AND TACTICAL POINTS: 1. The components of physical time lags are: * Perception time 0.1 second * Brain lag 0.1 second or more * Reaction time 0.4 to 0.8 seconds 2. The sum total of physical time lags (perception time, brain lag and reaction time) is generally between 0.75 and 1.0 second. 3. An armed subject with a firearm secreted in his waistband can draw and discharge a minimum of 2 shots within 1.0 to 1.5 seconds. 4. Physical time lags, combined with continuous movement of a suspect, can account for discrepancies between an officer's account of events and the actual post-incident evidence. 5. A police officer's perception time, brain lag and reaction time all begin after the suspect's actions are already underway. 6. A police officer's decision to de-escalate the use of deadly force is subject to the same physical time lags as the decision to use deadly force. 7. Proximity of a suspect from a potential weapon (distance of a police officer from the suspect), coupled with physical time lags, can effect the decision to utilize deadly force. 8. The existence of physical time lags, perception time, brain lag and reaction time does not justify the use of poor or inappropriate tactics. 9. Under life-threatening conditions, waiting to see a suspect's gun before a police officer utilizes deadly force can result in injury and/or death to the officer. CONCLUSION In conclusion, the post incident analysis of an officer involved shooting is complex at best. It is hoped that those who sit in review of police officers’ actions consider the "fast moving circumstances" of the situation, the impact of physical time lags and the officer's overall "state of mind" at the moment he decided to shoot. The issues involving "physical time lags" are present, to some degree, in most officer-involved shooting situations. Additionally, it is this author's opinion that in some cases, these time lags have been given little consideration when analyzing the totality of the involved police officer's actions. The most stressful, emotionally impacting and permanent decision a police officer can ever make is the decision to utilize deadly force. The best those of us sitting in judgment can do is understand the totality of the circumstances, the concept of physical time lags and their impact on the use of deadly force. About the Author: Captain Michael Hillmann is the commanding officer of LAPD’s West Los Angeles Area. His 33 years with the LAPD include assignments to patrol, Anti-Terrorist Division, and the Special Weapons and Tactics (SWAT) team. He has written articles for a wide variety of publications and presented in-depth courses on tactics and emergency response to law enforcement, the military, and private industry. He is widely regarded as one of the premier experts in emergency response and tactics. End notes: 1. Department of Transportation, Federal Aviation Administration, Civil Aeromedical institute Physiological Operations, Physiological ing - High Speed Flight, p. 24, January 1972. 2. Los Angeles Police Department, ing Division, Driver ing Unit, Instructor Lesson Plan, "Vehicle Operation Factors", The Human Factor - Reaction Time, C-1. 3. United States Supreme Court, Graham v. Connor (490 U.S. 386 - 1989). 4 Lt. Joe Callanan, (LASD retired) The Tactical Edge Magazine, Use of Force After The Rodney King Incident, p.17, Fall 1992
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Quick Kill Pistol https://www.youtube.com/user/azqkr "The mind is the limiting factor" |
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Good article. But sadly civilians are not afforded the same level of review of expert panels. Nor is this perception time lags even factored in civilian defensive use of deadly force.
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Pedro U / Member# 0770 |
#5
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I'm certified as an expert here in N.J. in the use of force.
I've testified many times in front of a grand jury and had to explain action vs reaction. I've been able to do a pretty good job without getting in the science of it. We haven't had a need for that yet. This does a good job of explaining things as well. I use Force Science News as a resource. This is good too. I will print it out and use it if necessary. Thanks for posting
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Professionals talk about tactics and concepts while amateurs talk about gear and equipment. |
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Welcome BlackKnight, glad someone can make use of the information. I find it relevant to understand and be able to articulate this type of information from the scientific community to dispel the myths that abound out there.
I also get the FS newsletters, worth reading all of their testing and conclusions.
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Quick Kill Pistol https://www.youtube.com/user/azqkr "The mind is the limiting factor" |