Equipped To Survive Foundation Second 406 MHz GPS Enabled Emergency Beacon Evaluation Summary |
In July 2005 the Equipped To Survive Foundation conducted a second series of real-world performance tests of 406 MHz Location Protocol (GPS enabled) Emergency (Distress) Beacons (EPIRBs and PLBs), with the primary focus on the beacons' integral GPS performance. This evaluation tested McMurdo's beacons that did not reliably provide a GPS location when tested under other than ideal conditions in the First Evalaution and which had since been upgraded, and a new GPS-enabled PLB from ACR Electronics.
Reading the Summary of the First Report will help put the results of this second report into perspective and is highly recommended.
The conduct of this evaluation required considerable financial and equipment resources beyond that normally available to the Equipped To Survive Foundation. Sponsorship for the evaluation was solicited, both of financial assistance and of gifts in kind.
While we again received considerable financial support from the two organizations listed below (and many other non-monetary contributions listed on the linked Sposors page), it was not nearly sufficient to conduct this evaluation. If the evaluation was to be conducted, then it was necessary to find other funding sources. After a frustrating and unproductive search and with no other viable alternatives, it was decided to solicit the manufacturers participating in the evaluation for additional funding necessary to conduct the evaluation. It was our determination in consultation with the other financial sponsors and stakeholders that the value of the testing for the consumer outweighed any issues of direct financial involvement by the manufacturers. They had already participated financially in the initial evaluation and would have done so in this second evaluation by underwriting the substantial cost of the beacons being tested and their participation at the evaluation. ACR Electronics and McMurdo Ltd. contributed $12,600 each to the Equipped To Survive Foundation with the funds to be used to underwrite a portion of the cost of the evaluation. Without this financial support, this evaluation could not have been conducted. Neither company received any additional or special consideration in return for their equal cash contribution.
Simulated rain on ACR Prototype PLB |
West Marine (Watsonville, California, USA), a major U.S. headquartered, publicly traded marine chandlery chain and purveyor of marine safety equipment, both wholesale and retail. In addition, West Marine hosted the testing logistics out of their headquarters building, provided added logistical support, provided boats and equipment necessary for the marine testing, and assigned employees to assist for the duration of the testing, as well as additional support both prior to and after the actual field testing.
BoatU.S. Foundation for Boating Safety & Clean Water (Alexandria, Virginia, USA), a non-profit 501(c)(3) organization that creates education and outreach campaigns, researches issues and products, and helps boaters and user groups learn specific actions they can take to be safer and better stewards of the environment while boating.
Click here for a complete list of sponsors and donors including contributors of equipment and assistance, without which this evaluation could not have been conducted.
Invitations were also sent out to numerous Search and Rescue-related organizations and industry.
The U.S. Coast Guard Office of Aviation Engineering authorized the Aviation Life Support Equipment Manager and an assistant to participate.
Captain Eric Knott, Director of Training / Commercial and Agency Sales at Landfall Navigation, joined us as an independent observer. Landfall Navigation is a dealer for both ACR and McMurdo beacons and other products. His independent report is included as Appendix 5 of the full report.
Testing ACR PLB onboard Willow with BT100A testers in waterproof enclosures in foreground |
Mr. Peter Forey of Sartech Engineering Ltd (Surrey, United Kingdom) provided the use of two TSR406 406 MHz beacon receivers at both the initial and this second evaluation and also served as an "independent observer" to McMurdo's self-test of their beacons. Forey is a dealer for ACR , McMurdo and other beacon manufacturers, as well as a manufacturer of beacon replacement batteries and beacon test equipment that are sold to the entire industry.
Mr. George Lariviere of Whiffletree Corporation (Marshfield, Massachusetts, USA), the U.S. distributor for WS Technologies, donated the use of two WS Technologies BT100A 406 Beacon Testers when the manufacturer was unable to participate again this year due to prior commitments and was invited to attend to operate the testers. Lariviere has previously worked for a sister company beacon manufacturer to ACR, currently consults for a sister company beacon manufacturers to ACR and is a distributor in the U.S. of McMurdo's non-survival related marine electronic products.
Location Protocol 406 MHz Emergency Beacons tested: (clockwise from 12:00) McMurdo Precision EPIRB, ACR AquaFix PLB-200, ACR Prototype PLB, McMurdo Fastfind Plus PLB |
This evaluation of 406 MHz Location Protocol Emergency Beacons was limited in scope to the following two beacon manufacturers; ACR Electronics (Ft. Lauderdale, Florida, USA – a subsidiary of Cobham PLC, United Kingdom) and McMurdo Ltd. (Portsmouth, United Kingdom – a subsidiary of Chemring Group PLC, United Kingdom) who produce beacons approved for the U.S. market and which are also sold worldwide. This evaluation was primarily concerned with the self-locating performance of these beacons in real-world conditions and not the beacons' performance vis-�-vis COSPAS-SARSAT or other regulatory standards, per se, nor for the most part any other specific performance parameters of the beacons except those few others specifically included.
Beacons were divided into types; EPIRB (Emergency Position Indicating Radio Beacon, a marine distress beacon) or PLB (Personal Locator Beacon for personal use on land or in the maritime environment) and by whether they were off-the-shelf consumer beacons or a prototype design.� All beacons tested in this second evaluation use an internal GPS source for self-location (the ACR PLBs offer the option of interfacing with an external GPS receiver, but we did not test that capability).� While no beacon tested performed flawlessly, all the beacons appear to provide a reasonable level of self-locating performance, a substantial improvement over the first evaluation. All the beacons tested appear to provide the minimum acceptable level of distress alerting performance expected from conventional, non-location protocol 406 MHz emergency beacons.
The following beacons were tested:
NOTE 1: The ACR� �AquaFix 406 GPS I/O Personal EPIRB� is identical with regards construction, operation and coding with the ACR TerraFix GPS I/O PLB and AeroFix GPS I/O Personal ELT (all of which have the same model number) and the results herein also encompass those models as well.
NOTE 2: The ACR �Prototype based on Model PLB-200 GPS I/O� PLB incorporated hardware, software and mechanical differences from the current PLB-200 that ACR reports may be incorporated into future production beacons once appropriate approvals are obtained. Externally, the beacons appeared identical to the production AquaFix beacons tested and were identified with a "P" handwritten in indelible ink on the cover.
The production ACR beacons were literally off-the-shelf beacons from West Marine stock, taken from their warehouse and store shelves. The prototype ACR beacons were shipped direct from ACR.
The McMurdo beacons came from a variety of sources. Some beacons were literally off-the-shelf beacons from West Marine and Landfall Navigation stock, taken from their warehouses and store shelves.� In addition, owners of beacons that had been upgraded by McMurdo as part of the upgrade campaign resulting from the first evaluation were solicited to provide their beacons for the evaluation. These beacons had to have been upgraded prior to the participation agreement being signed by McMurdo. This solicitation was made via a number of online boating and aviation forums and those participating received a new McMurdo replacement beacon of the same type as was provided. Equipped To Survive Foundation and West Marine covered all shipping expenses. It should be noted that McMurdo was opposed to the inclusion of these field upgraded consumer beacons in the evaluation, and requested that if we did include them they wanted us to also include ACR beacons from the field as well.� McMurdo stated that its concerns over the inclusion of consumer owned beacons were due to the fact that there could not be any confidence as to the condition of such beacons due to possible rough handling, poor storage etc., and it represented a disparity between our trials beacons and those from other manufacturers.
Upgraded McMurdo Location Protocol Beacons: Precision 406 GPS EPIRB (left), Fastfind Plus GPS PLB (right) |
It should be noted that in the course of conducting our solicitation for the McMurdo beacons it became apparent that not all McMurdo beacon owners were aware of the upgrade campaign, despite considerable efforts on McMurdo's part to get the word out. Upgraded beacons can be identified by the blue collar with "GPS" printed on it for the Precision 406 GPS EPIRB and the text "GPS ANTENNA" and warning on the body of the Fastfind Plus PLB (see images to right). We encourage anyone with a Precision GPS EPIRB or McMurdo Fastfind Plus PLB that has not yet been upgraded to contact McMurdo:
North and South America
Toll Free Telephone: 1-800-576-2605 Telephone: 561-819 2600 Email: [email protected] McMurdo Pains Wessex Inc. 200 Congress Park Drive Suite 102 Delray Beach Florida 33445 USA |
Rest of the World Telephone: +44 (0)23 9262 3808 Email: [email protected] McMurdo Ltd Silver Point Airport Service Road Portsmouth PO3 5PB UK |
Beacons for the test were shipped to West Marine. The source of the beacon was recorded and the beacons sequestered in a secure area. For field-upgraded McMurdo beacons secured from customers, a replacement beacon was sent.
In order to ensure commonality of all the data recorded, all Equipped To Survive recorded time data was recorded as UTC (Universal Coordinated Time, still commonly referred to as GMT, Greenwich Mean Time) with time synchronized using the time supplied from the GPS receivers.
Multiple sources for receiving and recording locally the 406 MHz beacon transmissions were used in order to ensure back-up capability.
Sartech Engineering Ltd provided two model TSR406 406 MHz receivers. The Sartech receivers were hooked up to Panasonic CF-28 Toughbook computers. Because the computers' batteries would not last for an entire day of testing, a man-portable Honda EU1000i Generator/Inverter was used.
Dubner's Beacon Decoder Program with GPS interface |
In addition, each computer was also connected to the serial NMEA output from a GPS receiver (Garmin GPSMAP 296 with remote active antenna and GPSMAP 76) using a 50 foot cable. Dubner's BDC program converted this data to a real time graphic display showing the relative location of the GPS satellites in view, their approximate power levels and the actual GPS location duplicating the format found on the Garmin receivers as well as the HDOP (horizontal dilution of precision) of the GPS constellation. This information was recorded every 5 seconds during data acquisition.
Also incorporated into the BDC program was a timer that was manually activated upon initial activation of the beacon and which would then record elapsed time for each data burst from the beacon, providing the total elapsed time from start until a GPS derived location was transmitted. Finally, on each reset, the computer automatically reset the clock to UTC time based on the data input from the attached GPS receiver.
Wiffletree Corporation provided two WS Technologies Model BT100A 406 Beacon Testers. These provided essentially all the functionality, as well as added data parameters, of the aforementioned Sartech receivers and computers together, integrated into a handheld Dell Personal Digital Assistant. The built-in antenna had a range of 10 meters. A second RIB was enlisted to carry these testers. These units recorded data on Secure Digital memory cards and this data was then later transferred to a computer. Each data burst resulted in an HTML page of formatted data, saved with its date and time stamp. File names were coded to provide scenario, manufacturer, and model of the beacon and receiver I.D.
Doug Ritter (left) views data collection with ETS Foundation volunteer Russ Tatro operating the test sets and computers |
The Equipped To Survive Foundation provided the GPS receiver that served as the standard reference beacon. This was a Garmin model eTrex Legend (WAAS enabled) which was selected because 1) it is a WASS-enabled mid-range member of the most popular moderate-priced portable handheld GPS line sold in the U.S.; 2) it is the model GPS used as reference for the Key West Test
As a back up to the computer recorded data, all data was also manually recorded on waterproof (Rite-In-The-Rain) laser printed data sheets with a waterproof pen. To maintain consistency, accuracy and ensure independent recording of manually recorded data, all of the hand-written data recording was accomplished by a single West Marine representative.
As a back-up to the GPS data recorded by the BDC program, we manually recorded the number of satellites being received by the GPS and their signal strength using a water-resistant Olympus Stylus 300 digital camera to photograph the GPS display. The water-resistant camera could be safely taken on board the life raft during those maritime scenarios, without risk of damage. The camera also saved in the individual image metadata files the date and time the image was taken.
For data reduction purposes, these images could be printed out with this included metadata date and time stamp to produce a reference that could be manually integrated into the results database if neccessary.
A candid digital photographic and digital video record of all beacon tests by the Equipped To Survive Foundation professional photographer and videographer, including preparations involving the beacons, was made for documentary purposes.
Doug Ritter looks on as McMurdo representatives recode a McMurdo Precision 406 GPS EPIRB |
Multiple beacons were required of each model to ensure that each test beacon started on equal terms, from what is known as a "cold start." This is based on the assumption that the beacon will likely not have been activated prior to use and thus will have no GPS information, ephemeris data or the almanac in memory, which could possibly shorten the time to acquiring a location. Before the GPS can derive a location, it must download from the satellite certain data. This takes a period of time and can theoretically significantly impact time to acquisition and even if acquisition is successfully accomplished in the time available. If that data has already been downloaded and held in a memory, it is likely that the GPS will acquire a location faster or acquire when it might not otherwise. Manufacturers claim that their beacons do not retain this data after being shut off, but as there is no practical way for us to independently confirm this, and there are technically ways in which it could be accomplished even with no power, the only way to ensure a cold start is to use a fresh, un-activated beacon for each test.
The field testing was conducted in and around Santa Cruz, California, USA. The same sites were used as were used in the first evaluation to retain commonality and provide some degree of comparability.
A RIB (Rigid Inflatable Boat) with high pressure/volume water pump and an attached fire hose was used to simulate rainfall and adverse weatehr conditions. One of the Coast Guard rescue swimmers used the fire hose to maintain a stream of water over the beacons or life raft for the testing.
The draft field test protocols for this evaluation were initially based on those used in the original Key West Test. They were then refined and additional tests added for the first evaluation based on input from a variety of industry and government sources and the results of the laboratory tests. Only minor revisions based on experience at the first evaluation were made to the test protocols for the second evaluation, none of these of a substantive nature. Some tests from the first evaluation were eliminated that weren't specifically GPS performance related.
Simulated rain on life raft |
Ideally, it would be desirable to test multiple distress beacons of each model in each scenario. The larger sample size would serve to mitigate the effects of a random failure that might not be typical. The high cost of the distress beacons made this approach prohibitive.
By the same token, it is generally accepted that lifesaving equipment must be exceptionally reliable. Because failure can be fatal, consumers have a reasonable expectation that lifesaving equipment will work the first time, every time. Lifesaving equipment failure is not considered an option by the consumer. As such, any beacon failure must be considered unacceptable and this mitigates the potential adverse effects of testing only a single distress beacon of each model in each scenario.
The time necessary to conduct the testing also limited the number of beacons that could be tested, as well as the number and scope of the scenarios to be evaluated. Additional time also translates to additional financial costs, not only for the evaluators, but also for the support personnel and organizations and the manufacturers who participated. The full week spent testing was the practical limit, and even then some participants had to cut their attendance short.
Ideally, it would be desirable to test the GPS-enabled distress beacons under controlled conditions in a GPS simulator to assess the GPS performance of the beacons under a variety of identical adverse conditions; however the cost of doing so was beyond the resources available to the Equipped To Survive Foundation.
Real world testing introduces numerous variables beyond the control of the evaluator. In the case of this evaluation, significant potential variables included weather, sea conditions, and GPS satellite visibility. All the manufacturers of the beacons tested signed on as participants, implicitly acknowledging that these variables were within accepted norms, and would not adversely impact the results if the evaluation were to be conducted in substantial accordance with the draft test protocols provided to them.
McMurdo Precision 406 GPS EPIRB |
The results presented here are for tests of particular beacons. Readers of this report are cautioned that it can be potentially erroneous to extend the self-location results for any particular beacon to any beacons not tested unless the combination of GPS chip, software, GPS antenna and relationship between the GPS antenna, and transmitting antenna are substantially the same due to the complex interactions involved.
The evaluation was divided into three distinct phases: Baseline, Maritime, and Inland, with the results summarized in the tables that follow:
(Please note that the terms "success" and "fail" in these tables refers to the acquisition of a GPS-derived location and is not indicative of the 406 MHz alerting performance of the beacons.)
Baseline Scenario Description |
Satellites in view and locked on per Garmin Etrex Legend GPS Success or Failure to acquire a GPS location within 35 minutes Time to acquisition if location was acquired in minutes:seconds |
||||
McMurdo Precision EPIRB |
|
ACR AquaFix PLB-200 PLB |
McMurdo Fastfind Plus PLB |
ACR Prototype PLB |
|
On jetty with expansive sky view and horizon |
6 Success 2:50 |
6 Success 1:41 |
6 Success 2:49 |
6 Success 1:40 |
|
Relocation to beach with expansive sky view and horizon1 |
6 Success NA |
6 Success NA |
6 Success NA |
6 Success NA |
|
On jetty with expansive sky view and horizon, sprayed with water to simulate moderate rain.2 |
6 Success 2:49 |
6 Success 3:22 |
6 Success 8:42 |
7 Success 4:13 |
|
1 For the relocation scenario, the beacons were hand-carried to a new location 400 yards distant to determine if the new location was acquired and transmitted at the 20-minute location update cycle. 2 For PLBs this test served as Baseline Test for Maritime testing as well as actual testing for Inland testing
|
Maritime Scenario Description |
Conditions Seas, Skies |
Satellites in view and locked on per Garmin Etrex Legend GPS located on boat Success or Failure to acquire a GPS location within 35 minutes Time to acquisition if location was acquired in minutes:seconds |
||||
McMurdo Precision EPIRB |
|
ACR AquaFix PLB-200 PLB |
McMurdo Fastfind Plus PLB |
ACR Prototype PLB |
||
On aft deck of vessel, under mizzen boom |
3-4 ft. swells with waves, clear |
6 Success 2:37 |
7 Success 15:58 |
8 Success 10:05 |
6 Success 2:33 |
|
In water tethered to Rigid Inflatable Boat |
4-6 ft. swells with waves, clear |
6 Success 6:37 |
---- |
---- |
---- |
|
In water with simulated rain/spray |
2-3 ft. swells with waves, overcast |
6 Success 15:16 |
---- |
---- |
---- |
|
Secured on simulated swimmer's vest in water |
4-6 ft. swells with waves, clear |
---- |
6 Success 2:10 |
6 Success 2:50 |
6 Success 1:52 |
|
Secured on simulated swimmer's vest in water with simulated rain/spray |
4-6 ft. swells with waves, clear |
---- |
6 Success 1:54 |
6 Success 10:21 |
6 Success 3:11 |
|
In 6-person life raft, canopy open |
3-4 ft. swells, overcast |
6 Success 2:49 |
6 Success 3:22 |
8 Success 13:02 |
6 Success 10:56 |
|
In 6-person life raft canopy closed |
3-4 ft. swells, overcast |
6 Success 2:50 |
6 Success 7:36 |
6 Success 2:50 |
6 Success 4:10 |
|
In 6-person life raft canopy closed, simulated rain |
2-3 ft. swells, overcast |
6 Success 2:50 |
6 Fail NA |
6 Success 11:12 |
6 Success 1:41 |
Inland Scenario Description |
Satellites in view and locked on per Garmin Etrex Legend GPS Success or Failure to acquire a GPS location within 35 minutes Time to acquisition if location was acquired in minutes:seconds |
||
ACR AquaFix PLB-200 PLB |
McMurdo Fastfind Plus PLB |
ACR Prototype PLB |
|
Small clearing, solid tree line |
6 Success 3:23 |
6 Success 2:50 |
6 Success 1:42 |
On jetty with expansive sky view and horizon, sprayed with water to simulate moderate rain. |
6 Success 3:22 |
6 Success 8:42 |
7 Success 4:13 |
Clearing – 3 satellites only in view |
3 Success 5:01 |
3 Success 7:52 |
NOT TESTED
|
Under forest canopy 2-3 satellites in view |
2-3 INVALID TEST1 NA |
2-3 INCONCLUSIVE2 NA |
2-3 Success 12:42 |
Hidden from GPS satellite for initial start-up period, cover removed to allow GPS acquisition at 20 minute update |
7 Success |
6 Success |
6 Success |
1 Incorrect Beacon Tested – No GPS in the beacon – see "Beacon Test Anomalies" 2 Due to GPS satellite availability a fair comparison between this beacon's performance and that of the others in the same test could not be made.� Readers are directed to the full report, Inland Scenario Charlie, page 41, for full details. 3 Beacon not tested due to difficulty establishing 3 GPS satellites consistently, decision by ACR representative with concurrence of test principals that since production PLB-200 had acquired, no significant data lost by not testing this prototype in this scenario. Readers are directed to the full report, Inland Scenario Bravo, page 41, for full details. � |
We experienced a number of anomalies in conducting the second evaluation:
ACR Model PLB201 without GPS showing light colored faceplate |
Cracked cases of two McMurdo Fastfind Plus PLBs |
McMurdo reported:
During the inspection of the beacons prior to the trials commencing two Fastfind Plus PLBs were observed to have small cracks in the upper part of the case near the lanyard retention / battery retaining point.McMurdo have been unable to replicate the failure mode exhibited by the 2 Fastfind Plus PLBs from the ETSF trials and at this time do not have an explanation for them. Subsequent examination of a total of 373 PLBs showed no further units with this problem. It has been demonstrated that the battery retention screw can be over tightened by a factor of 2 or 3 times and no damage occurs to the PLB. McMurdo provides guidance on tightening this screw both to consumers and internally within its production processes. McMurdo's conclusion is thus that the design of the PLB is fit for purpose and even if the screw is over tightened well beyond McMurdo's recommended torque settings this does not lead to a crack appearing in the outer case of the PLB. At this time we are unable to explain how the cracks came about in the 2 ETSF PLBs and we would recommend that it is worthwhile trying to back track the history of these PLBs to see if there is anything unusual about them, particularly in terms of any rough handling, dropping or adverse storage conditions. McMurdo has instigated an extra inspection process to check for any future evidence of this problem and if further faulty units are found further investigations will be carried out.
A copy of McMurdo's full evaluation report is included in Appendix 3 of the full report.
While there is no indication that this is an inherent problem, because McMurdo has been unable to determine a cause for the cracked cases we found on Fastfind Plus PLBs and because these were field upgraded units, prudence dictates that customers with field upgraded beacons should probably inspect their beacon(s) for cracking before further use. Since some customers may have purchased their beacons from dealers who had their stock upgraded, all owners of Fastfind Plus PLBs with a serial number of 500-530-2524 and lower should examine their beacons. McMurdo reports that a few units with serial numbers higher than this may also have been field upgraded, so a look by all owners is probably in order. McMurdo retains a record of each beacon produced and its history, so if there are any questions, you can contact McMurdo.
Chris Hoffman (McMurdo Director of Engineering) checks dead PLB battery during recoding session |
McMurdo reported:
One Fastfind Plus PLB was found to have a flat battery during the initial beacon recoding exercise before the trials began.Investigations have shown that there was nothing wrong with the PLB or the Battery Pack that would explain why the battery was discharged (flat). McMurdo has checked its records and can find no evidence of this problem ever having occurred previously. The cells within the battery have been returned to the manufacturer for investigation, however a report back is not expected for sometime and it is considered unlikely at this time that this will reveal any additional facts or information. It is suggested that we try and track the history of this beacon to see if this might provide any indication of how the battery could have got into this condition. Self testing the beacon prior to going on a trip would have shown up this problem and allowed the user to obtain a replacement unit.
A copy of McMurdo's full evaluation report is included in Appendix 3 of the full report.
4. During the recoding process, one of the McMurdo Fastfind Plus PLBs would not accept it's recoding. This beacon was replaced in its assigned test with one of our spare beacons. After the evaluation, McMurdo took this Fastfind Plus PLBs back for analysis and to report on what they found.
McMurdo reported:
One Fastfind Plus PLB would not program during the initial beacon recoding exercise before the trials began.Investigations indicated that this was due to a dry joint on pin 3 of the membrane which is the Anode connection for the IR programming LED. McMurdo believes that this was a one off isolated incident due to human error during the upgrade process. This problem would not have resulted in failure of the beacon to transmit a distress alert in an emergency. McMurdo has modified its internal process instructions and inspection procedures as a result of this finding to increase awareness of this problem and take extra care in this process in future. It has also advised its partner in the USA upgrading the beacons to implement the same tightened controls. All beacons are tested prior to leaving the facility to ensure they contain a valid distress message.
A copy of McMurdo's full evaluation report is included in Appendix 3 of the full report.
5. As noted in the test results, one McMurdo Precision 406 EPIRB behaved in an unexpected manner during its test, with the strobe light not functioning for some time after activation and only providing a location after an unexpectedly and anomalously long period of time, though it did eventually generate and transmit a location within the COSPAS-SARSAT allotted time. McMurdo retained this EPIRB for analysis and to report on what they found.
McMurdo reported:
During the sea trials one Precision EPIRB took longer than expected to start transmitting once it was placed in the sea.Investigation of this EPIRB could not find any fault with the unit. The sea water contacts on the EPIRB and the battery inside the EPIRB both operated normally and no problems were found with the EPIRB. It can only be surmised that somehow a low level of contamination (a very fine film of grease maybe) got onto one or both of the sea water switch contacts of this EPIRB before the trial and this caused the delayed activation seen during the trial. The sea water switch contacts on the EPIRB were examined when the unit was first received back at the factory but no obvious signs of contamination were evident. It is further surmised that the intermittent activation seen during the first 10 minutes was due to this film and that movement of the EPIRB in the sea was then sufficient to break through this barrier after 10 minutes which thus then activated the EPIRB. Although there was a slight delay the beacon did work as intended and would have sent a distress alert in a real emergency.
A copy of McMurdo's full evaluation report is included in Appendix 3 of the full report.
Doug placing ACR PLB under space blanket |
6. ACR requested they receive the AquaFix PLB that failed to acquire a position during the Maritime Scenario Foxtrot (in life raft with simulated rain) test for analysis and to report on what they found and it was shipped to them. Note that in a retest on the Baseline jetty location it acquired a location in 1:42 indicating the GPS reciever was functioning.
ACR reported:
We've analyzed unit #61 that did not acquire inside a life raft while the raft was subjected to water spray. Our findings are as follows:The unit, SN #61, manufactured March 2005, programmed test protocol, with HEX ID: 2DDC64807AFFBFF has a GPS receiver with sensitivity measured at 4dB worse than normal. This reduced sensitivity could easily explain why it would struggle under certain adverse conditions to acquire a GPS position lock.
Doug, the potential for using receivers with marginal sensitivity is something we observed last year, (I believe you and I have talked about this previously, perhaps at RTCM?). What we've learned is that in every production lot the sensitivity of the receivers follows a traditional Bell curve with the majority of units clustering near the nominal and with a few units performing at the fringes. This is unavoidable without an effective screening mechanism. It would appear that of all the (ACR) GPS enabled EPIRBs and PLBs you've obtained on the market in your first test and now in this second test that this is the first marginal receiver you've come across.
Having discovered this issue, we have addressed it by buying a GPS simulator in April 2005 in order to have the ability to measure GPS receiver performance. We require that our GPS receiver suppliers provide us with units that meet our performance specification. With our GPS simulator we can test/measure/screen units to insure that they meet our performance specs. We can say with confidence that the units we've built since late-April/early-May time frame fall within a much tighter performance specification than what GPS vendors typically provide to their customers. To our knowledge we are the only 406 Beacon manufacturer supplying units to the recreational market that has invested in GPS simulator technology and that has the ability to screen receivers to insure their performance capability.
A further comment: we are working with GPS receiver manufacturers, providing them with our test data and unique performance requirements, to upgrade the quality of GPS receivers that we purchase. We now have prototype receivers that are better than any we've found in the general market. These prototype GPS receivers were used in the prototype beacons in your recent test. I'm sure we'll be commenting more on their performance once we receive your report.
Bottom line: The issue of GPS performance is one we take very seriously at ACR and have since day one. It is not something we take for granted nor have we accepted the status quo. We continue to lead the industry by identifying issues and solving them before they become known to others.
Paul Hardin
ACR Electronics
McMurdo Fastfind Plus PLB on Personal Floatation Device |
Forest test site with skyward shot of overhead canopy |
McMurdo Precision 406 GPS EPIRB in simulated rain test |
Gorge test site |
McMurdo Fastfind Plus PLB inside Switlik MD-2 life raft |
Small clearing test site |
McMurdo Fastfind Plus PLB GPS antenna identification and warning |
Simulated rain/spray on PFD-equipped dummy with ACR PLB-200 |
For those interested in the nitty gritty details of the testing and results, the 113-page full report, "Second Evaluation of Location Protovcol Distress Beacons", is available in PDF format (5.7 MB).
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For additional background information related to this Evaluation, the following information compiled for the first evaluation may be helpful:
Reading the Summary of the First Report will help put the results of this second report into perspective and is highly recommended.
Doug Ritter, Executive Director of Equipped To Survive Foundation, organizer and director of this evaluation and principal author of the report has had an ongoing professional and journalistic relationship with most 406 MHz beacon manufacturers for some time, with manufacturers providing "dummy" beacons for display and photographic purposes. At various industry events, beacon manufacturers' representatives have treated Mr. Ritter to meals. Both ACR Electronics and McMurdo Ltd. have provided PLBs for Mr. Ritter to give away as door prizes during non-paid survival equipment presentations promoting 406 MHz PLB usage to various consumer groups. Mr. Ritter has, from time to time, recommended beacons from all the tested manufacturers to consulting clients and at times the beacons have been purchased via his contacts with the manufacturers or a manufacturer's distributor.
The Equipped To Survive Foundation has, prior to 2005, received 10% of sales of both ACR and McMurdo PLBs made on the GetRescued.net retail web site operated by Pulver Technologies, Inc., which also hosts the Equipped To Survive web site.
BoatU.S. Foundation, which made a financial contribution towards the conduct of this evaluation, has received price consideration from ACR for beacons purchased for their EPIRB rental program.
West Marine, which made a financial contribution towards the conduct of this evaluation, provided personnel and resources for the evaluation, and which provided some of the off-the-shelf beacons for evaluation, has sold both ACR and McMurdo beacons and other products produced by these companies. West Marine is an authorized service center for ACR.
Landfall Navigation, which provided some of the off-the-shelf beacons for evaluation and sent an observer to the evaluation, has sold both ACR and McMurdo beacons and other products produced by these companies.
Both ACR Electronics and McMurdo made an equal financial contribution towards the conduct of this evaluation as well as providing replacements for the test beacons. Pursuant to the agreements with the manufacturers as another inducement to participate, these manufacturers have also be given a preview of the draft report and were invited to offer a response if desired. Equipped To Survive Foundation was not obligated to either respond or to edit the report, but agreed to publish any such response in the report.
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Executive Director: Doug Ritter
Email: Doug Ritter
URL:
http://www.equipped.org/406_GPS_beacon_test_2005_summary.htm
First Published: November 11, 2005
Email to: [email protected]
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