The 1978 HSCA Acoustic study that claims four shots were fired rests on 4 “N-waves” found on the recording, that don’t sound like gunshots, that don’t sound like anything, are actually gunshots. The difficulty, is that they occur about the same time Sheriff Decker is heard to say “Hold everything secure . . .”, which, on the surface, would indicate that these alleged 4 shots occurred about 90 seconds too late to have been the shots.
The claim is, that this doesn’t matter because sometimes sounds got recorded in the wrong order. This is a totally unsupported claim. It would have support if we had something like the following recording:
[SNIP]. . . .
A laymen’s objection to the 1978 Acoustic study.
1. The “gunshots” don’t sound like gunshots. Indeed, they don’t sound like anything. They are inaudible.
The breezy explanation is that the Dictabelt was designed to record voices, not gunshots. That doesn’t seem right to me. I never heard of a device designed to record voices not also being able to record loud gunshots. [SNIP]. . . .
2. The hypothesis that the Dictabelt would sometimes record sounds out of order in time, is something I would need to see an example of. It doesn’t sound likely to me.
I think I should also mention a glaring error in the 1978 Acoustic study. In 1978, the Dictabelt recorder was still used to keep a record of the police radio. So why didn’t they have the Dictabelt be used to record the sounds of their test firings of rifles at Dealey Plaza that day? This could have been easily done. [SNIP]. . . .
Had they taken this elementary step; we would know:
1. Does the Dictabelt record gunshots as audible sounds, that sound like gunshots, or at least audible sounds? Or as inaudible N-waves?
2. Are events recorded out of temporal order? If so, how often does this occur? If it does, is this associated with crosstalk?
Because the 1978 Acoustic Experts did not take this elementary step, we don’t know. And, I believe the Dictabelt technology no longer exists and so unlike 1978, we can not test this, not in Dealey Plaza, or anywhere else.
This is an elemental error. At the end of the day, it doesn’t matter what their instruments recorded. It is what a Dictabelt records. That is what should have been studied. [SNIP]. . . .
It is unbelievable that you would post this drivel in response to the links and research that have been presented to you. You just keep repeating the same claims about the acoustical evidence and ignoring all the evidence that refutes your claims.
The crosstalk you keep harping on has been explained by many scholars; there are perfectly plausible, reasonable explanations for the crosstalk. If you reject those explanations, then you must label as coincidence all the intricate sound-distance correlations, the windshield-distortion correlations, the N-wave correlations, and the sound-fingerprint correlations between the dictabelt impulses and the Dealey Plaza test-firing impulses. You must also believe that the dictabelt impulses that match the Dealey Plaza test-firing impulses as described above are merely bursts of static that did not even occur during the assassination.
For the sake of others who read this thread, since I suspect discussion with you is a waste of time, here are some important facts about the HSCA acoustical evidence:
* First, some news: I have learned that Dr. Josiah Thompson will include an extensive defense of the acoustical evidence in his widely anticipated book
Last Second in Dallas, which will be published this November.
* The BBN scientists did notice the presence of voices on the dictabelt, some clear and some faint, but they did not analyze them because they focused on the gunshot impulses and the N-waves on the dictabelt.
* It is important to realize that the NAS-NRC-Ramsey panel claimed that
the gunshot impulses identified by the HSCA acoustical experts are nothing more than bursts of static about one minute after the shooting. Warren Commission (WC) apologists still repeat this claim. Keep that in mind as we continue.
* A total of eight scientists worked on the BBN dictabelt analysis: Dr. Barger and the three other authors of the BBN report plus four other BBN scientists who assisted with the research. Dr. Barger was one of the top acoustical scientists in the world at the time.
* The BBN scientists designed five screening tests to determine whether the characteristics of the four gunshot impulse patterns on the dictabelt corresponded with the characteristics of gunfire.
* The five BBN screening tests determined that the dictabelt’s impulse patterns occur during the same timeframe the shots were fired, that the impulse patterns are unique, that the shape of the impulse patterns resembles those generated by gunfire, and that the amplitude of the impulse patterns resembles the amplitude of the echo patterns of the shots fired during the Dealey Plaza test firings.
* Five of the dictabelt’s impulses passed the BBN screening tests for gunfire, but the HSCA's chief counsel, Robert Blakey, insisted on ruling out one of the four rear-shot impulses because it came impossibly close to another rear-shot impulse and thus suggested two gunmen firing from behind. Therefore, under pressure from Blakey, the impulse at the 140.3-second mark on the dictabelt was eventually labeled as a false alarm. However, several scholars, including Dr. Thomas, argue that there is no valid reason to label the 140.3-second impulse as a false alarm.
* The Dealey Plaza test-firing sounds were processed into echo patterns. Each sound's echo pattern represented the unique "fingerprint" of gunfire sounds as heard at one location when a weapon was fired from one place to one target. The echo patterns were compared to the dictabelt’s impulse patterns to see if any of the clear fingerprints obtained during the reconstruction matched any of the sound fingerprints on Channel 1. The matching process was a binary correlation detection, a simple but powerful signal-detection system. Several echo patterns from the Dealey Plaza test firing matched sufficiently well with the four impulse patterns that BBN was able to place the motorcycle from 120 to 160 feet behind JFK’s limo.
* More than five dictabelt-test-firing impulse correlations might have been found if HSCA chief counsel Blakey had not insisted that shots only be fired from two locations during the Dealey Plaza test firings, i.e., from the grassy knoll and the sixth-floor window of the Texas School Book Depository (TSBD). Some HSCA staffers and consultants argued strenuously against this restriction, but Blakey would not budge.
In limiting the test firings to two locations, Blakey ruled out the possibility that any of the unmatched sounds on the dictabelt could be matched with impulses of shots fired from other locations, such as from the nearby Dal-Tex Building or the County Records Building, both of which would have provided logical sniper positions. (Interestingly, Mafia man Eugene Brading was arrested in the Dal-Tex Building shortly after the assassination. Just a "coincidence", right?)
This explains why the second gunshot impulse does not really trace back to the sixth-floor window if you look at the raw data for the impulse. The acoustical trajectories and echo patterns of a shot from the roof of the Dal-Tex Building and a shot from the TSBD’s sixth-floor corner window would be very similar.
* The BBN scientists noted that the loudest sound impulses from gunfire are much louder than the loudness of the sound for which the radio was designed to operate, namely, human speech. These loud impulses overdrive the radio circuitry. Because of the radio transmitter’s restricting circuits, very loud sounds are recorded in distorted fashion and appear as much weaker signals than they really are.
* The discharge of a rifle creates two types of sound impulses: the sound of the muzzle blast and the sound of the shock wave produced by the bullet as it travels at a speed greater than the speed of sound. This shock wave is also called an N-wave.
All sound impulses arriving at the microphone that were loud enough to be heard over the environmental noise would be transmitted over the radio connected to the microphone.
The environmental noise consisted mainly of the loud noise made by the motorcycle’s engine. This noise was only about 10 decibels lower than the loudest recorded gunfire impulse. Therefore, and this is a key point, only the very loudest gunfire sound impulses would be detectable above the engine noise.
This means that a gunshot fired by a gunman standing a foot or two inside a window in one of the other buildings might not have produced a loud enough sound impulse to be detectable on the dictabelt.
* The BBN scientists realized that if impulse patterns similar to those that occurred during the shooting were to be found anywhere else during the 5-minute recording of stuck-mike transmission, this would clearly indicate that the impulse patterns were caused by something other than gunfire. Therefore, they examined processed waveforms for the entire segment of stuck-mike transmissions on the dictabelt, looking for impulse patterns similar to those already identified. Only one other pattern was found. It begins about 30 seconds after the four gunshot impulse patterns and consists mostly of impulses caused by radios keying in and attempting to transmit. This sequence lasts only about 4 seconds and does not resemble the four gunshot impulse patterns.
* The gunshot impulses on the dictabelt not only have the generic structure of gunshot echo patterns, but they have the echo patterns of the gunshot impulses from the Dealey Plaza test firings.
* If the dictabelt impulses are not gunfire, then their echo patterns would be expected to match the test-firing impulses in a random manner, if they matched at all. But, the dictabelt impulses match the test-firing impulses in the same topographic order; to put it another way, the matching test-firing impulses occur in the same chronological order in which the dictabelt impulses occur.
* When you calculate the speed of the dictabelt motorcycle based on the echo correlations with the test-firing impulses, you get a speed that is almost identical to the average speed of JFK’s limo. The distance from the first matching microphone to the last was 143 feet. The time between the first and last gunshot impulse on the dictabelt is 8.3 seconds. In order for the motorcycle with the stuck mike to cover 143 feet in 8.3 seconds, it would have had to travel at a speed of right around 11.7 mph. This speed fits almost perfectly with the FBI's conclusion that Kennedy’s limo averaged 11.3 mph on Elm Street. If this is a “coincidence,” it is an amazing, stunning coincidence.
* Acoustical experts Weiss and Aschkenasy determined that the odds that the correlations between the dictabelt grassy knoll shot impulse and the test-firing grassy knoll impulse were a coincidence were “less than 1 in 20” (8 HSCA 32).
Incidentally, Weiss and Aschkenasy said that before they began their research, they did not believe there were any shots on the dictabelt, much less four or more.
* Weiss and Aschkenasy noted that the grassy knoll impulse on the dictabelt could not have been caused by a motorcycle backfire because it has a visible supersonic shockwave, or N-wave, preceding it. The N-wave comes just 24 milliseconds, or 2.4% of 1 second, before the sound impulse.
* Several scholars have noted that the grassy knoll impulse at the 145.1-second mark on the dictabelt aligns with the timing of the head shot in the Zapruder film. Blakey prevented any mention of this correlation during the hearings and in the HSCA report.
* Regarding the fact that the sound of a carillon bell is present on the dictabelt, Dr. Aschkenasy explained that this sound could have been recorded by a different patrolman’s microphone:
You are making an assumption that there was a source of a bell in Dealey Plaza, but that is your assumption. However, you have to look at the tape and the data on the tape a little more carefully, and one can see there an indication of a keying-on-transient which means that someone else tried to get onto the channel at that very time. He may have been in position to be close to a source of a carillon bell rather than anyone in Dealey Plaza, because there is associated with that carillon bell some indication of somebody else transmitting at the same time, which puts it just equally as well outside of Dealey Plaza. . . .
In fact, if you listen to the police tape recording during the entire period of the 5 minutes when the microphone on this motorcycle was accidentally on, you can in fact hear other transmitters coming on. Most of them failed insofar as all you hear is the microphone click and you hear a kind of a chirp as they try to capture the channel.
But there are a number of times where you do hear other voices coming on, other people communicating, sometimes very distorted sounds of the voices, sometimes quite clear and intelligible; and it is all during the time that this one transmitter has been on. In fact, as you go on in time past the point at which the shots occur, the ability of other transmitters to come into the channel becomes increasingly--it occurs more frequently. You hear more people coming in. You hear comments to the effect that somebody has his microphone button stuck, and it is all audible and understandable, so there are indeed several transmitters being received simultaneously during that period, and therefore it could very well have been that there was another motorcycle who happened to key on at just that point in time and picked up the sound of a bell somewhere. (5 HSCA 591-592)
