Most Recent
6

Trailer for Gringo: The Dangerous Life of John McAfee

Catch the full documentary on Showtime starting September 24.

177

Commentary on Neil Gordon Interview

seabed-search-w-confidence

Today I’d like to discuss some of the implications of what DSTG scientist Neil Gordon said in the course of the interview I published yesterday.

In particular, I’d like to look at what he told me about the ATSB’s interpretation of the 0:19:37 BFO value. Essentially, Gordon assures us that the experts have looked at what the manufacturers know about how these boxes work, and the only interpretation they can come up with is that the BFO value was the result of a very steep rate of descent–specifically, 5,000 fpm at 00:19:29 and then 12,000 to 20,000 fpm at 00:19:37. This is got a gentle deterioration; it’s accelerating at about 1/2 g, so that in another 8 seconds, at that rate, the descent will be at 19,000 to 35,000 fpm, that is to say going straight down at 187 to 345 knots. Remember that the plane had already been losing speed and altitude for five to fifteen minutes before the second engine even flamed out, and losing more altitude in the subsequent two minutes before the 00:19:29 ping was logged. Thus, both velocity and acceleration point to a situation in which the plane will be hitting the surface in short order. Bearing in mind that the plane would be in a spiral dive if unpiloted, I can’t see how it could have traveled more than 5 nm from the last ping, let alone 15nm, let alone 40 nm. It would have hit soon, and it would have hit hard.

One possible explanation would be the idea that the plane was in a phugoid: plunging quickly, then rising again, then plunging again. But as I wrote in a previous post, simulator runs by Mike Exner suggest that these extreme rates of descent are characteristic of the later stages of an unpiloted post-flameout plunge, when phugoid effects are overwhelmed. Thus, if the ATSB is correct in interpreting the final BFO value as a very steep plunge–as Gordon assures us they must–then the plane should be well within 15 nautical miles of the seventh arc.

The chart above (based on the invaluable work of Richard Cole) shows a band of seabed, marked in red, defined by an outer border that is 15 nm beyond the 7th arc and an inner border that is 15 within the 7th arc. As you can see, this band has almost entirely been searched out to the 99% confidence level as defined in Figure 2 of my previous post (located at the intersection of the 7th arc and 94.85 degrees east). All that remains is a rectangle approximately 17 km wide and 150 km long, for a total area of 2,550 sq km.

According to Figure 3 in that same post, the DST calculates that the probability that the plane crossed the seventh arc northeastward of 96.75 degrees east longitude is effectively zero. To search to this longitude would require covering another 3,700 or so sq km. Thus, to cover all the seabed that MH370 could plausibly have reached, if the ATSB’s BTO and BFO analysis is correct, would require another 6,250 sq km of seabed scanning, which is more or less what the ATSB has been planning to search anyway. Unfortunately, the search at present is not taking place in either of these remaining areas.

As I see it, there are four possibilities at this juncture:

  1. Both the BFO and the BTO analysis are correct, and the plane is lying somewhere in the remaining 6,250 sq km described above.
  2. The BTO analysis is correct, but the BFO analysis is wrong. In this case, the plane was not necessarily descending with great rapidity, and instead might have been held in a glide, and is most likely in “Area 1” shown above.
  3. The BTO analysis is incorrect, and the BFO analysis is correct. The plane was indeed descending very rapidly during the last ping, but the plane was further to the northeast somewhere in “Area 2.”
  4. Both BTO and BFO analysis are incorrect. The plane could be just about anywhere.

I happen to believe that the DSTG knows what it is doing, and that 2 through 4 are not the case. On the other hand, the unsearched areas remaining are at the far fringes of likelihood, and so don’t feel that #1 is a high-probability option, either. No doubt some will argue that the plane might have been overlooked within the area already searched, despite assurances from officials that if it was there they would have seen it.

Frankly, we’re running out of compelling options.

32

Exclusive Interview with Top MH370 Search Mathematician Neil Gordon

DSTG report 2

Fig. 1: Probability distribution function or “heat map” of where MH370 might have wound up.

When Australia’s Transport Safety Board (ATSB) was tasked with finding missing Malaysia Airlines flight 370, it tapped another arm of the government, the Defense Science & Technology Group (DSTG), to tell it where to look. There a team led by Dr. Neil Gordon devised a mathematical approach based on Bayesian analysis to weigh all the possible routes that the Boeing 777-200ER could have flown, given the seven Inmarsat “pings,” the plane’s fuel load, environmental conditions, and the different settings available on the autopilot. From this they derived a probabilistic “heat map” of where the plane might have wound up (Fig 1, above). The results showed that the jet most likely flew fast and straight, at high altitude, before running out of fuel and crashing. It was this analysis that allowed the ASTB to define the search area currently being scoured for traces of seabed wreckage. Yet, with less than 10 percent of the area left to be searched and not a trace found, it now appears they looked in the wrong place. Earlier this summer, the three nations responsible for the investigation—Malaysia, China, and Australia—jointly announced that they would not be extending the search after the last portion is completed this fall. Last month Dr. Gordon went on record for the first time to explain what might have gone wrong and where the next place to look for the plane should be. His answers formed the basis of an article for Popular Mechanics; for the readers of this blog I present a less filtered version of what Dr Gordon had to say.

One of the crucial decisions you had to make was how to treat the 18:22 radar return. In your report, you wrote, “The final reported position from radar was very at very long range from the sensor and there was a long time delay between it and the penultimate radar report. The report is at long range and it is likely to have rather poor accuracy because of the angular errors translates into large location errors at that range.” Are you confident that that radar return is not anomalous, it actually comes from the plane?

You’ve got to understand what our job in this investigation is. Our job is to take the data as presented to us by the accident investigators and project a trajectory from that.

Was there any explanation or speculation on why a plane would be detected at that point but not before or after?

I guess it was that they’ve just got snapshots off the radar screen. I’m speculating here but I would imagine they’ve recorded a video of the screen but they don’t necessarily have a digital backup of the measurements.

Read the rest of this entry »

491

MH370 Flight Simulator Claim Unravels Under Inspection

SimPhugoid

In last month’s New York magazine article about Zaharie Ahmad Shah’s flight simulator, I cautioned against treating the recovered data as a smoking gun:

…it’s not entirely clear that the recovered flight-simulator data is conclusive. The differences between the simulated and actual flights are significant, most notably in the final direction in which they were heading. It’s possible that their overall similarities are coincidental — that Zaharie didn’t intend his simulator flight as a practice run but had merely decided to fly someplace unusual.

What I failed to question was the report’s assumption that the six points all belonged to a single flight path. On closer examination that assumption seems ill supported. Rather, it seems more likely that the six points were recorded in the course of  two or possibly three separate flights. They were interpreted as comprising a single flight only because together they resembled what investigators were hoping to find.

The first four points do appear to show a snapshots from a continuous flight, one that takes off from Kuala Lumpur and climbing as it heads to the northwest. Between each point the fuel remaining decreases by a plausible amount. Each point is separated from the next by a distance of 70 to 360 nautical miles. At the fourth point, the plane is at cruise speed and altitude, heading southwest in a turn to the left. Its direction of flight is toward southern India.

The fifth and sixth points do not fit into the pattern of the first four. For one thing, they are located more than 3,000 miles away to the southeast. This is six or seven hours’ flying time. Curiously, at both points the fuel tanks are empty. Based on its fuel load during the first four points, the plane could have flown for 10 hours or more from the fourth point before running out of fuel.

The fifth and sixth points are close together—just 3.6 nautical miles apart—but so radically different in altitude that it is questionable whether they were generated by the same flight. To go directly from one to the other would require a dive so steep that it would risk tearing the aircraft apart.

The picture becomes even more curious when we examine the plane’s vertical speed at these two points: in each case, it is climbing, despite having no engine power.

The ATSB has speculated that in real life MH370 ran out of fuel shortly before 0:19 on March 8, and thereafter entered into a series of uncontrolled porpoising dives-and-climbs called phugoids. In essence, a plane that is not held steady by a pilot or autopilot, its nose might dip, causing it to speed up. The added speed willl cause the nose to rise, and the plane to climb, which will bleed off speed; as the plane slows, its nose will fall, and the cycle will continue.

Could a phugoid cause a plane to climb—663 feet per minute at point 5, and 2029 feet per minute at point 6? The answer seems to be yes for the fifth point and no for the sixth. Reader Gysbreght conducted an analysis of 777 flight-simulator data published by Mike Exner, in which an airliner was allowed to descend out of control from cruise altitude in the manner that the ATSB believes MH370 did.

A diagram produced by Gysbreght is shown at top. The pink line shows the plane’s altitude, starting at 35,000 feet; the blue line shows its rate of climb. Worth noting is the fact that the phugoid oscillation does indeed cause the plane to exhibit a small positive rate of climb soon at first. But by the time the plane reaches 4000 feet — the altitude of the sixth point — the oscillation has effectively ceased and the plane is in a very steep dive.

Gysbreght concludes:

As expected for a phugoid, the average rate of descent is about 2500 fpm, and it oscillates around that value by +/- 2500 fpm initially. The phugoid is apparently dampened and the amplitude reduces rapidly. I was slightly surprised that it reaches positive climb values at all. Therefore I think that 2000 fpm climb is not the result of phugoid motion.

Not only is the plane climbing briskly at the sixth point, but it is doing so at a very low airspeed—just above stall speed, in fact. If the pilot were flying level at this speed without engine power and pulled back on the controls, he would not climb at 2000 feet per minute; he would stall and plummet. In order to generate these values, the plane must have been put into a dive to gain speed, then pulled up into a vigorous “zoom climb.” Within seconds after point six, the simulated flight’s speed would have bled off to below stall speed and entered into an uncontrollable plunge.

Perhaps this is why Zaharie chose to record this particular point: it would have been an interesting challenge to try to recover from such a plunge at low altitude.

What he was doing at points 5 and 6, evidently, was testing the 777 flight envelope. This might seem like a reckless practice, but I think the opposite is the case. From time to time, airline pilots do find themselves in unexpected and dangerous conditions. For instance, as Gysbreght has noted, “On 7 october 2008 VH-QPA, an A330-303, operating flight QF72 from Singapore to Perth, experienced an In-flight Upset west of Learmonth, West Australia. The upset was caused by a freak combination of an instrumentation failure and an error in the flight control software, which resulted in an uncommanded pitch-down. The vertical acceleration changed in 1.8 seconds from +1 g to -0.8 g.” It would be better to experience a situation like this for the first time in a flight simulator in one’s basement, rather than in midair with a load of passengers and crew.

What Zaharie clearly was not trying to do was to fly to McMurdo Station in Antarctica, as some have speculated.

For one thing, while a 777 is fully capable of flying from Kuala Lumpur to Antarctica, it was not carrying enough at point 1 to make the trip. And if one were trying to reach a distant location, one would not do so by running one’s tanks dry and then performing unpowered zoom climbs.

The misinterpretation of the flight simulator data offers a couple of cautionary lessons. The first is that we have to be careful not to let a favored theory color our interpretation of the data. The investigators believed that MH370 flew up the Malacca Strait and wound up in the southern Indian Ocean, and they believed that Zaharie was most likely the culprit; therefore, when they found data points on his hard drive that could be lumped together to form such a route, that’s what they perceived.

A second lesson is that we cannot uncritically accept the analysis made by officials or by self-described experts. Science operates on openness. If someone offers an analysis, but refuses to share the underlying data, we should instinctively view their claims with suspicion.

15

Showtime to Premiere Documentary GRINGO: THE DANGEROUS LIFE OF JOHN McAFEE, 9/24

Gringo imageIn non-M370 news (click on “Aviation” in the banner above if you want to avoid stuff like this) I’m very pleased that Showtime is going to air a documentary that I’ve been working on for the last year or so. “Gringo” will premiere at the Toronto International Film Festival on September 11 and then be broadcast two weeks later. Here’s the press release:

Showtime continues to expand its slate of bold documentaries under the Showtime Documentary Films banner with GRINGO: THE DANGEROUS LIFE OF JOHN McAFEE, a new feature-length film making its world television premiere on Saturday, September 24th at 9 p.m. ET/PT on SHOWTIME. Oscar nominee and two-time Sundance Film Festival winner Nanette Burstein (American Teen, The Kid Stays in the Picture) delivers a deep investigation into the mysterious life of visionary anti-virus entrepreneur John McAfee. The film has been selected to make its debut at the Toronto International Film Festival next month.

GRINGO: THE DANGEROUS LIFE OF JOHN McAFEEpresents a sordid, stranger-than-fiction tale of violence, sex and money as Burstein looks at the unfolding and bizarre life of the millionaire businessman. Years after creating the ubiquitous McAfee anti-virus software, McAfee relocates to Belize in 2008 and adopts a quasi-gangster lifestyle that spirals into increasingly unusual behavior. After the mysterious death of his neighbor, he flees to Guatemala in 2012, before returning to the U.S. to seek the 2016 Libertarian Party presidential nomination that was ultimately won by Gary Johnson. Burstein’s expansive examination, highlighted by interviews with McAfee’s former gang associates and girlfriends, and cryptic email exchanges with McAfee himself, reveals new details of the unsolved murder investigation, while uncovering new allegations against him for crimes that were never prosecuted. The film is an Ish Entertainment Production, and is produced by Chi-Young Park, and executive produced by Michael Hirschorn, Jeff Wise and Wendy Roth.

760

Free the Data!

La_liberte_guidant_le_peuple-620b

Last month, I published an article in New York magazine about a secret Malaysian police report which included details of a simulated flight into the southern Indian Ocean. As Victor Iannello revealed in a comment earlier today, that information came from French journalist Florence de Changy, who had come into possession of the full police report but only shared a portion of it with me.

I have not seen the full report, but would very much like to, because I would like to form my own judgement of what they mean, and I think everyone who is interested in trying to figure out what happened to the missing plane, including the next of kin, are entitled to the same. Some people who have read the full reports have suggested that they give the impression that the recovered simulator files do not in context seem all that incriminating. Other people who have seen the full report have told me that the report contains material that makes it hard to doubt that Zaharie is the culprit. Of course, it’s impossible to rely on someone else’s say-so. We need to see the full report.

The reason I am writing this post now is that earlier today Florence published an article in Le Monde in which she describes having the full report as well as another, 65-page secret document on the same topic. Meanwhile, another French newspaper, Liberation, has also published an article indicating that they, too, have a copy of the report. And private correspondence between myself and a producer at the television network “France 2” indicates that he has as well.

Meanwhile, I know that independent investigators here in the US have the documents as well.

At this point, the secret documents are not very secret. Someone within the investigation has been leaking them like crazy, obviously with the intention that their contents reach the public. My understanding is that this source has placed no restrictions on their use. So journalists and independent investigators who have copies of these documents need to do their duty and release them — somehow, anyhow. Some people that I’ve begged and implored to do so have said that they fear legal ramifiations. Well, if it’s illegal for you to have these documents, then you’ve already broken the law. Use Wikileaks or another similar service to unburden yourself.

Free the data!

UPDATE 8/14/16: Apparently Blaine Alan Gibson has the document, too, according to a rant he post on Facebook. He reveals that the entire set of documents is 1,000 pages long.

110

Did MH370 Plunge or Ditch?

End-of-flight sequence

The general-interest media has seized hold of a debate that his been raging on this forum for quite some time: after the last communication between MH370 and the Inmarsat satellite at 0:19, did the aircraft spiral unpiloted into the sea close to the 7th arc, or glide into the ocean under pilot control with the flaps deployed for a gentle, Miracle-on-the-Hudson type touchdown?

The answer is: neither.

I’ll explain why, but let’s back up a bit first. In the picture above, taken from the ATSB report “MH370 – Definition of Underwater Search Areas,” released on December 3, 2015, we see the final sequence of events believed to have occurred before the plane vanished for good. Sometime around 00:02:30, the right engine ran out of fuel and flamed out. At 00:11:00, the satellite data unit (SDU) transmitted its scheduled hourly ping as usual. A few minutes later, at 00:17:30, the left engine ran out of fuel and flamed out. This caused a systemwide electrical supply failure, and the SDU powered down along with everything else.  The ram air turbine (RAT) deployed to provide emergency hydraulic and electrical power—but this would not include the SDU or the flaps. One minute later, the APU kicked in and restored electrical power, and a minute after that, the repowered SDU logged back in with Inmarsat, creating the “7th ping.” Then, within seconds, the APU exhausted the dribble of fuel in its fuel lines, and the SDU lost power again.

When the 7th ping occurred, therefore, the plane had been without engine power for two minutes, and had spent approximately 15 minutes before that slowing and descending from cruise speed and altitude under the power of a single engine. Thereupon, it descended without autopilot inputs. So: what happened next?

Read the rest of this entry »

866

60 Minutes Australia on Secret Malaysia Report

Here’s a link to the report broadcast today on Australian 60 Minutes about the search for MH370. Part 1:

Part 2:

Discussion after the jump…

Read the rest of this entry »

524

Australia Confirms Zaharie Flight-Sim Route to Southern Ocean

In a posting to a section of its website called “Correcting the record,” the Australian Transport Safety Board today confirmed that the FBI found data on MH370 captain Zaharie Shah’s flight simulator hard drives indicating that Zaharie had practiced a one-way flight into the southern Indian Ocean, as I wrote in a story for New York magazine on Friday. Entitled “False and inaccurate media report on the search for MH370,” the post concerns several claims by Australian pilot Byron Bailey in The Australian, including Bailey’s interpretation of the flight-sim data:

Mr Bailey also claims that FBI data from MH370 captain’s home simulator shows that the captain plotted a course to the southern Indian Ocean and that it was a deliberate planned murder/suicide. There is no evidence to support this claim. As Infrastructure and Transport Minister Darren Chester said in a statement, the simulator information shows only the possibility of planning. It does not reveal what happened on the night of its disappearance nor where the aircraft is located. While the FBI data provides a piece of information, the best available evidence of the aircraft’s location is based on what we know from the last satellite communications with the aircraft. This is indeed the consensus of international satellite and aircraft specialists.

While ostensibly rebutting Bailey’s claims, the ATSB tacitly acknowledges the fact that the flight-sim data was in fact found by the FBI.

279

New York: MH370 Pilot Flew a Suicide Route on His Home Simulator Closely Matching Final Flight

21-mh370-zaharie-flight-sim-route.w529.h352

The route found on the simulator hard drive is red, the suspected route of MH370 in yellow. The orange box is the current search area.

 

New York has obtained a confidential document from the Malaysian police investigation into the disappearance of Malaysia Airlines Flight 370 that shows that the plane’s captain, Zaharie Ahmad Shah, conducted a simulated flight deep into the remote southern Indian Ocean less than a month before the plane vanished under uncannily similar circumstances. The revelation, which Malaysia withheld from a lengthy public report on the investigation, is the strongest evidence yet that Zaharie made off with the plane in a premeditated act of mass murder-suicide.

The document presents the findings of the Malaysian police’s investigation into Zaharie. It reveals that after the plane disappeared in March of 2014, Malaysia turned over to the FBI hard drives that Zaharie used to record sessions on an elaborate home-built flight simulator. The FBI was able to recover six deleted data points that had been stored by Microsoft Flight Simulator X program in the weeks before MH370 disappeared, according to the document. Each point records the airplane’s altitude, speed, direction of flight, and other key parameters at a given moment. The document reads, in part:

Based on the Forensics Analysis conducted on the 5 HDDs obtained from the Flight Simulator from MH370 Pilot’s house, we found a flight path, that lead to the Southern Indian Ocean, among the numerous other flight paths charted on the Flight Simulator, that could be of interest, as contained in Table 2.

Taken together, these points show a flight that departs Kuala Lumpur, heads northwest over the Malacca Strait, then turns left and heads south over the Indian Ocean, continuing until fuel exhaustion over an empty stretch of sea.

Search officials believe MH370 followed a similar route, based on signals the plane transmitted to a satellite after ceasing communications and turning off course. The actual and the simulated flights were not identical, though, with the stimulated endpoint some 900 miles from the remote patch of southern ocean area where officials believe the plane went down. Based on the data in the document, here’s a map of the simulated fight compared to the route searchers believe the lost airliner followed (see above).

Read the rest of this entry »