89 FR 248 pgs. 105675-105680 - Parts and Accessories Necessary for Safe Operation; Application for an Exemption From Waymo LLC (USDOT #3000336) and Aurora Operations, Inc. (USDOT #3441156)
Type: NOTICEVolume: 89Number: 248Pages: 105675 - 105680
Pages: 105675, 105676, 105677, 105678, 105679, 105680Docket number: [Docket No. FMCSA-2023-0071]
FR document: [FR Doc. 2024-30860 Filed 12-26-24; 8:45 am]
Agency: Transportation Department
Sub Agency: Federal Motor Carrier Safety Administration
Official PDF Version: PDF Version
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DEPARTMENT OF TRANSPORTATION
Federal Motor Carrier Safety Administration
[Docket No. FMCSA-2023-0071]
Parts and Accessories Necessary for Safe Operation; Application for an Exemption From Waymo LLC (USDOT #3000336) and Aurora Operations, Inc. (USDOT #3441156)
AGENCY:
Federal Motor Carrier Safety Administration (FMCSA), Department of Transportation (DOT).
ACTION:
Notice of final disposition; denial of exemption.
SUMMARY:
The Federal Motor Carrier Safety Administration (FMCSA or the Agency) publishes its decision to deny an application from Waymo LLC (Waymo, USDOT #3000336) and Aurora Operations, Inc. (Aurora, USDOT #3441156) (together, Applicants), requesting an exemption from certain Federal Motor Carrier Safety Regulations (FMCSRs) related to requirements to place specific types of warning devices at prescribed locations around commercial motor vehicles (CMVs) stopped on the traveled portion or shoulder of a highway for any cause other than necessary traffic stops and requirements that lamps on CMVs be steady burning. Applicants requested that they and "other similarly situated companies" be permitted to instead use "Cab-Mounted Warning Beacons" (including "variants" and "any configuration of similar effectiveness") when the CMV is operated by a Level 4 Automated Driving System (ADS) either without a human on board or with a human on board when testing the warning beacons. Safety is FMCSA's highest priority. The Agency embraces USDOT's Innovation Principles, including adapting as technology changes and supporting technologies that further our policy goals. While the application and the public comments show promise for alternative warning devices to provide safety benefits for warning motorists of a stopped CMV under certain conditions, the present application does not demonstrate how Applicants or other proposed exempted parties would ensure an equivalent or greater level of safety than would be achieved absent the exemption. The application does not provide sufficient details about proposed alternative devices, and the limited data presented does not support a likely equivalent level of safety for a national, industry-wide exemption for all companies operating autonomous CMVs. If Applicants can reasonably address the reasons for the denial, Applicants may resubmit an exemption application.
FOR FURTHER INFORMATION CONTACT:
Mr. David Sutula, Vehicle and Roadside Operations Division, Office of Carrier, Driver, and Vehicle Safety, FMCSA; 1200 New Jersey Avenue SE, Washington, DC 20590-0001; (202) 366-9209; MCPSV@dot.gov.
SUPPLEMENTARY INFORMATION:
I. Viewing Comments and Documents
To view comments, go to www.regulations.gov, insert the docket number "FMCSA-2023-0071" in the keyword box, and click "Search." Next, sort the results by "Posted (Newer-Older)," choose the first notice listed, click "Browse Comments."
To view documents mentioned in this notice as being available in the docket, go to www.regulations.gov, insert the docket number "FMCSA-2023-0071" in the keyword box, click "Search," and choose the document to review.
If you do not have access to the internet, you may view the docket online by visiting Dockets Operations on the ground floor of the DOT West Building, 1200 New Jersey Avenue SE, Washington, DC 20590, between 9 a.m. and 5 p.m. ET, Monday through Friday, except Federal holidays. To be sure someone is there to help you, please call (202) 366-9317 or (202) 366-9826 before visiting Dockets Operations.
II. Legal Basis
FMCSA has authority to grant exemptions from FMCSRs where the Agency finds that "such exemption would likely achieve a level of safety that is equivalent to, or greater than, the level that would be achieved absent such exemption." 49 U.S.C. 31136(e); 49 U.S.C. 31315(b)(1).
An exemption application must provide specific information relevant to the scope of the exemption sought including, but not limited to, the provisions from which the person requests exemption, the reason the exemption is needed, the time period during which the requested exemption would apply, an analysis of the safety impacts the requested exemption may cause, and the specific countermeasures the person would undertake to ensure an equivalent or greater measure of safety than would be achieved absent the requested exemption. 49 U.S.C. 31315(b)(5); 49 CFR 381.310.
[top] Upon receipt of an exemption request, FMCSA must publish a notice of the request in the Federal Register and provide the public an opportunity to inspect the applicant's safety analysis and any other relevant information known to the Agency, and to comment on the request. See 49 U.S.C. 31315(b)(6)(A); 49 CFR 381.315(a). The Agency reviews the application and any public comments submitted and determines whether to grant or deny the request. 49 CFR 381.315(b). The Agency must publish its decision in the Federal Register . Id. If the request is granted, the decision will identify the name of the person or class of persons granted the exemption, the provisions from which the person is exempt, the effective period, and the terms and conditions of the exemption. 49 U.S.C. 31315(b)(6)(B); 49 CFR 381.315(c)(1). If the request is denied, the Agency will publish the name of the person denied the exemption and the reasons for such denial. 49 U.S.C. 31315(b)(6)(C); 49 CFR 381.315(c)(2). A granted exemption may be renewed, upon request, for subsequent 5-year periods. 49 U.S.C. 31315(b)(2); 49 CFR 381.300(b). If an exemption request is denied, and the applicant can reasonably address the reason for the denial, the Agency may allow the applicant to resubmit the application. 49 U.S.C. 31315(b)(3); 49 CFR 381.317.
III. Background
A. Current Regulatory Requirements Under the FMCSRs
Applicants request an exemption from certain FMCSRs related to requirements for placing warning devices around a stopped CMV, requirements that exterior lamps be steady burning, and requirements that specific types of warning devices be used.
The applicable FMCSRs require the driver of a CMV stopped on the traveled portion or the shoulder of a road for any cause other than a necessary traffic stop to activate hazard warning signal flashers and place required warning devices as soon as possible but within ten minutes, at specified locations behind and in front of the stopped CMV. 49 CFR 392.22(b). They also specify placement of warning devices in certain circumstances, such as during daylight hours, or where devices may be obstructed from view ( e.g., when stopped within 500 feet of a curve or the crest of a hill). Id.
The FMCSRs also require that all exterior lamps be steady burning, with exceptions not relevant here. 49 CFR 393.25(e).
Finally, the FMCSRs specify the types and number of warning devices to be used for stopped vehicles, namely 3 bidirectional emergency reflective triangles, or at least 6 fusees or 3 liquid-burning flares. Other warning devices may be used in addition to required devices, as long as they do not reduce the effectiveness of required devices. 49 CFR 393.95(f).
B. Applicants' Requested Exemption
Applicants request an exemption on behalf of themselves and "similarly situated companies" from requirements of 49 CFR 392.22(b), 393.25(e), and 393.95(f). Application (App.) at 1. They request that CMVs operated by a Level 4 ADS be permitted to use "Cab-Mounted Warning Beacons" instead of FMCSR-specified warning devices when the vehicles are operating either without a human on board, or with a human on board when testing the warning beacons. Id.
Applicants define Cab-Mounted Warning Beacons as "cab-mounted warning devices, consisting of both forward- and rearward-facing amber flashing lights mounted at a height above the upper edge of the sideview mirrors." App. at 2. The proposed warning beacons are amber colored and meet certain Society of Automotive Engineers (SAE) requirements. Id. at 7-8. These warning beacons would "flash at a different rate than the required hazard warning signal flashers to increase conspicuity of the stopped CMV," which Applicants contend would not interfere with or impair the effectiveness of hazard warning signal flashers. Id. at 11. Applicants propose that at least one rearward-facing light be mounted on each side of the cab "at some point on or above the upper edge of the sideview mirrors and below the top edge of the cab," and that at least one forward-facing light be mounted "similarly high" on the front of the cab. Id. at 9-10. Applicants provide a diagram illustrating areas where the beacons "could be mounted," noting that the description "purposely allows for flexibility with regard to the mounting location of the beacons so long as the beacons are positioned at a sufficiently high point on the cab." Id. at 10 n.19. Applicants propose that "[t]he exemption, if granted, should permit any configuration of similar effectiveness." Id. at 10.
Applicants state that the exemption is needed because compliance with 49 CFR 392.22(b) is "not feasible for autonomous CMVs without a human on board," and because proposed Cab-Mounted Warning Beacons are not steady burning (as required under 49 CFR 393.25(e)) and are not among the approved warning devices under 49 CFR 393.95(f). Applicants posit that if the exemption is not granted, the deployment of autonomous CMVs without a human driver on board will be "sufficiently impeded," and that alternatives to the exemption would be unnecessarily costly. App. at 14-15.
C. Research Submitted by Applicants in Support of Proposed Beacons
To support the asserted equivalent level of safety of Cab-Mounted Warning Beacons, Applicants submitted two reports on testing certain beacon "variants." App. at 9. Waymo sponsored a study by the Virginia Tech Transportation Institute (VTTI) ("Stopped Automated Commercial Motor Vehicle Warning Device Surrogates," prepared for Waymo, LLC, by Erin Mabry, Susan Soccolich, Kary Meissner, Josh Radlbeck, and Andy Schaudt, VTTI, August 1, 2022 (the Waymo study)). Aurora conducted what it calls a "naturalistic study" ("Naturalistic Study for Warning Device Equivalency," prepared by Aurora Operations, Inc., October 2022 (the Aurora study)). Id. at 11, apps. B-C.
The Waymo study evaluated whether drivers detected, recognized, and responded appropriately to certain beacons while traveling on a closed-circuit test track in daylight and nighttime conditions and encountering a stopped CMV at three different locations (on the shoulder, in the lane ahead, and on the right shoulder after a curve). App. at 12. The study compared driver reactions to Cab-Mounted Warning Beacons with driver reactions to warning triangles and concluded that study participants subjectively preferred beacons over triangles for communicating the presence of a stopped CMV. Waymo study at 20. The study was conducted in Virginia with 48 participants (24 daylight, 24 nighttime). Id. at 7-8. The report does not describe the weather conditions.
The Aurora study observed the reactions of over 7,000 passing vehicles to the presence of certain beacons versus warning triangles. App. at 13. The study was conducted on public roads with passing motorists who were unaware of the study and traveling at highway speeds when they encountered a stopped CMV on the right shoulder. Id., Aurora study at 3. Aurora used sensors mounted on the stopped CMV to collect data about motorist responses. Aurora study at 8. Aurora reports that similar proportions of motorists responded to the presence of beacons as they did to warning triangles, and that among those responding, responses occurred at similar distances and motorists increased lateral separation in similar proportions. App. at 13-14. The Aurora study was conducted in Texas on Interstate 45 between Exits 258 and 249. Aurora study at 5. The report does not describe the weather conditions.
Applicants posit that the two reports confirm that the proposed beacons achieve a level of safety equivalent to or greater than the level achieved with FMCSR-specified warning triangles placed at prescribed distances. App. at 14.
IV. Overview of Public Notice and Comments
FMCSA published in the Federal Register on March 9, 2023, notice of the exemption application and the opportunity for public comment. 88 FR 14665. In response, the Agency received 51 public comments. 1
Footnotes:
1 ?FMCSA considered all comments in the docket received through October 31, 2024. FMCSA notes that it received two comments from the Association for Uncrewed Vehicle Systems International but is treating those submissions as one comment because they are substantively identical. See https://www.regulations.gov/comment/FMCSA-2023-0071-0020 and https://www.regulations.gov/comment/FMCSA-2023-0071-0037.
[top] Twenty-five comments generally supported granting the application, including comments submitted by the Association for Uncrewed Vehicle Systems International (AUVSI); the American Trucking Associations (ATA);
One commenter, HAAS Alert, was neutral on the proposal, although it supported updating current standards for hazard warnings and notifications.
Twenty-five comments generally expressed concerns with granting the exemption, including comments submitted by the Amalgamated Transit Union, AFL-CIO (ATU); AWM Associates, LLC; the Motor Vehicle Lighting Supplier Safety Institute (MVLSSI); the Owner Operator Independent Drivers Association (OOIDA); the Towing and Recovery Association of America, Inc. (TRA); the Transportation Trades Department, AFL-CIO (TTD); the Transport Workers Union of America, AFL-CIO (TWU); the Truck Safety Coalition (TSC)/Citizens for Reliable and Safe Highways (CRASH)/Parents Against Tired Truckers (PATT) (joint comment); eleven individual commenters; and six anonymous commenters.
Generally, commenters supporting the exemption cited the need for a warning system that does not require human intervention to place warning devices for ADS-operated CMVs and the need for continued development of automated technologies. AVIA, for example, argued that the exemption application proposes a new safety solution that would avoid the need for human intervention when a Level 4 or 5 ADS-equipped CMV is stopped on the highway. This position was echoed by comments from ATA; AUVSI; CTA; CWK Consulting, LLC; Daimler; Hirschbach; Kodiak; PACCAR Inc.; Stack; TechNet; Uber Freight; the U.S. Chamber of Commerce; VAS; Waabi; and Werner. These commenters stated that the exemption would help address regulatory burdens that they believe are hindering the deployment of ADS-equipped CMVs. AVIA also commented that it believes the proposed beacons not only address needs of ADS-equipped vehicles but also could enhance safety if applied to traditional CMVs by reducing risks to drivers who would otherwise be required to exit their vehicles to place warning devices. IST expressed concern over the "significant risk" to truck drivers placing warning triangles (particularly in conditions of poor visibility or adverse weather). Waabi also emphasized that it is "extremely dangerous" to require human drivers to "get out of a CMV, walk into or next to oncoming traffic (including at night and during severe weather events), and proceed 100 feet beyond the vehicle, and then physically deploy a warning triangle or flare." ATA and Kodiak commented that the exemption would be a positive step toward improving overall roadway safety. Similar comments from TXTA, Isuzu, MTA, IST, and Allegheny Conference noted that this would be a step toward enhancing or improving "roadway safety" for "autonomous trucks and other road users." NFOP stated that granting the exemption would be "a step toward collecting data that can support a broader rulemaking effort to update FMCSA's current regulation on warning devices for all CMVs."
Commenters generally opposed to granting the exemption cited concerns about the effectiveness of the proposed beacons and the lack of evidence in Applicants' studies to address certain safety concerns. ATU, for example, commented that there was no data demonstrating how the beacons would perform where there are blind corners blocking the sight lines of oncoming vehicles, where a vehicle is turned on its side, or if there is a fire or electrical problems. Other efficacy concerns included visibility of the beacons due to a single location, or based on roadway topography or alignment of the truck tractor and trailer; electrical failure causing failure of the beacons; and desensitization of the public to flashing beacons or confusion about what beacons mean (ATU, OOIDA, four individual commenters, one anonymous commenter, MVLSSI, and TRA). MVLSSI, OOIDA, TSC/CRASH/PATT, and trade unions (TWU, ATU, and TTD) also commented that Applicants presented insufficient evidence to demonstrate an equivalent level of safety, noting that more testing would be needed, with TSC/CRASH/PATT emphasizing the lack of performance standards for ADS-equipped CMVs. 2
Footnotes:
2 ?Among other FMCSA efforts to promote the safe testing and deployment of ADS-equipped CMVs, a proposed rulemaking, "Motor Carrier Operation of Automated Driving Systems (ADS)-Equipped Commercial Motor Vehicles" (RIN 2126-AC17), is currently underway.
Two individuals commented that the exemption, if granted, should apply to all CMVs, not just ADS-equipped CMVs. TWU and others called for FMCSA or DOT to consider larger studies on alternative warning devices to potentially update existing standards rather than granting an exemption from the current safety standards, and TTD similarly noted that the Applicants' request would have been more appropriate as a petition for rulemaking. Some commenters believed that the exemption request was too broad, seeking an exemption that would apply to an entire class of CMVs, rather than limited to those CMVs under the control of the applicants (see, e.g., ATU, TWU, and TSC/CRASH/PATT), with some noting that many of these operators currently use different systems and processes. Commenters also noted that the cited testing does not account for the safety case for a broader spectrum of autonomous and non-autonomous CMVs operated by different entities.
Applicants submitted a 2.5-page response to public comments, dated April 19, 2023 (Applicant's Response). They responded to certain commenter concerns regarding curves and hills by stating that the Waymo and Aurora studies evaluated beacons on or after curves, and that Aurora's study assessed beacons beyond the crest of a hill. They argue that warning beacons' positioning high on the cab made them effective. Regarding commenters' concerns about electrical failure, Applicants responded that beacons "can and should be designed and installed to avoid a single-point power failure" (such as by establishing two power domains to draw from, although they encouraged FMCSA to remain technology neutral as to how they are designed). They also noted that existing warning devices are not immune from failure. They further contended that the proposed beacons would activate immediately and thereby provide an immediate warning, unlike specified warning devices, which may take up to ten minutes to be placed. Applicants did not submit additional evidence to support these positions.
V. Exemption Decision
[top] Safety is the Agency's highest priority. The Agency embraces the United States Department of Transportation's Innovation Principles,
A. Applicants Do Not Provide Sufficient Details About the Proposed Alternative Devices and Do Not Demonstrate an Equivalent or Greater Level of Safety for Those Devices, Particularly for a Nationwide and Industry-Wide Exemption
To obtain an exemption from the FMCSRs, an applicant must provide evidence allowing the Agency to conclude that the exemption would "likely achieve a level of safety that is equivalent to, or greater than, the level that would be achieved absent such exemption." 49 U.S.C. 31315(b)(1). An applicant likewise must include sufficient details about the specific countermeasures they would take to ensure an equivalent or greater measure of safety. 49 U.S.C. 31315(b)(5); 49 CFR 381.310(c)(5). The present application fails to do so.
1. Applicants Do Not Provide Sufficient Details About the Proposed Alternative Warning Devices
Applicants propose Cab-Mounted Warning Beacons consisting of "at least one" rearward-facing light mounted "at some point on or above the upper edge of the sideview mirrors" and "at least one" forward-facing light. App. at 9-10. Applicants provide a diagram of where beacons "could be mounted," proposing that the description "purposely allows for flexibility with regard to the mounting location." Id. at 10 n.19. Applicants further propose that the exemption should "permit any configuration of similar effectiveness." Id. at 10. As several commenters noted, the proposed devices are not specific enough to ensure an equivalent level of safety. The variability of the description also does not readily enable the Agency to monitor the exemption terms and conditions. See 49 U.S.C. 31315(b)(8).
2. Applicants Do Not Demonstrate an Equivalent Level of Safety Supporting the Full Scope of the Exemption Sought
Applicants' submitted studies do not support an equivalent level of safety for Cab-Mounted Warning Beacons for the full scope of the exemption sought.
First, the studies at best address beacons mounted at 110 inches from the ground (Waymo study at 6) and at an undetermined height (Aurora study), 3 and with the particular placement and operational constraints described in the studies. They do not address the visibility of beacons for the full range of the "flexible" standard that Applicants propose, or "any configuration of similar effectiveness."
Footnotes:
3 ?The Aurora study indicates that one light is temporarily mounted on each side of the cab at "approximately one foot behind the sideview mirror" and "approximately four inches above the top of the sideview mirror." Aurora study at 3 n.3.
Second, while Applicants contend that both studies demonstrated similar overall reactions from highway users driving by a stopped CMV for the proposed Cab-Mounted Warning Beacons compared to warning triangles, the studies provided insufficient data to demonstrate an equivalency in driver responses. For example, as the Waymo study acknowledged, unfamiliarity of the warning beacons may have contributed to motorist behavior. Waymo study at 20. And while Applicants rely on the study to demonstrate that warning beacons were "easier to see" or "preferred" by drivers, the study also showed that for respondents who answered which device was better for signaling a stopped truck, 8 out of 10 selected warning triangles over beacons. Waymo study at 55. Aurora's study notes that some motorist responses may have occurred wholly outside the sensor range (Aurora study at 8)-an indication that the study may not have captured enough data points to compare whether drivers responded earlier to one warning device over the other.
The studies also failed to fully support whether motorist behavior was causally based on seeing warning beacons rather than a stopped CMV. One distinction between FMCSR-specified warning triangles and the proposed beacons is that warning triangles are placed at the rear of a stopped CMV (in addition to the front), while the proposed beacons are located only at the front of the cab-raising the possibility that drivers see the rear of a stopped CMV before they see the beacons. While Applicants contend that the beacons are visible from behind the vehicle, the evidence was inconclusive. For example, the studies failed to demonstrate through photos or videos the point at which a beacon or warning triangle was visible or recognized by a motorist, or the point at which a stopped CMV came into view. Changes in driver behavior were observed in 11 out of 12 observations with warning beacons (as opposed to 12 out of 12 for triangles) (Waymo study at 16, Table 3); still, the evidence does not clearly demonstrate whether drivers reacted to the CMV or the warning device. For example, neither study establishes a baseline condition that measured driver reaction to a stopped CMV with no warning device deployed, a concern raised by MVLSSI in its comments.
Applicants' contentions of equal or higher overall responses to warning beacons, moreover, fail to acknowledge circumstances where beacons performed worse than triangles. Aurora's study, for example, concluded that a warning beacon elicited a 2.75% higher percentage of responses than warning triangles overall. Aurora study at 24, Table 3.2.1-1. The same table, however, shows a lower percentage responded overall to warning beacons than to warning triangles in five of eight (62.5%) scenarios in the table, including daytime tests at left curve and straight locations, and nighttime tests at crest, right curve, and straight locations. Id. Although the differences in percentage responding were small, the overall worse performance for beacons in the majority of categories does not support Applicants' conclusion that the proposed beacons performed at a level equal to or better than warning triangles.
[top] Another limitation of the studies was the limited data. The Aurora study tested for 8 minutes with warning beacons, replaced the warning beacons with warning triangles, and then tested the next 8 minutes with warning triangles. Aurora study at 5-6. This leads to 16 minutes of total testing time for both warning devices for each roadway geometry (straight, curve left, curve right, and beyond the crest of a
Third, the studies do not demonstrate an equivalent level of safety across sufficiently varied circumstances. Many commenters expressed particular concern with the visibility of proposed warning beacons when a CMV is stopped along a curve. For example, TTD stated that the requirement in 49 CFR 392.22(2)(iv) is in place "to account for the simple geometry of curves, hills, and other obstructions that can make cab lights invisible to oncoming traffic."? 4 FMCSA agrees that road curvatures or elevations may affect visibility of a beacon located in a fixed position on the cab of a CMV, and that placement of warning devices at FMCSR-prescribed distances away from the CMV allows for improved visibility in such situations. FMCSA notes that, due to the different placement of the devices, the range of the warning provided by a cab-mounted beacon to an approaching motorist would need to be longer than the range of the warning provided by an appropriately placed warning triangle because the source of the warning (the location at which the warning originates) would be farther from the approaching motorist for a cab-mounted beacon than for a warning triangle placed behind a vehicle. FMCSA also expects the radius of the curve could affect the range of the warning beacon in a similar fashion to how curves affect the range of adaptive driving beams, as described in 49 CFR 571.108 (FMVSS No. 108) under Table XXII-Adaptive Driving Beam System Test Matrix.
Footnotes:
4 ?See https://www.regulations.gov/comment/FMCSA-2023-0071-0036. See also https://www.regulations.gov/comment/FMCSA-2023-0071-0038 (comment from HAAS Alert noting that "all line-of-sight alerting solutions are inherently limited by their relative visibility," which can be significantly reduced by weather conditions, road curvature, hills, and other factors).
The studies also gave insufficient information about the nature of the curves in the studies, 5 making it difficult to understand whether the curves were sufficiently representative of the types of curves ( e.g., slight vs. truly blind, sharp curves) the beacon-equipped autonomous CMVs would encounter across the United States, and therefore difficult to conclude that there is an equivalent level of safety on curves. Neither study presented photos or videos demonstrating the point of view of an approaching motorist entering or exiting the curve. Moreover, the Waymo study supports that the beacons performed significantly worse than warning triangles at a curve during daytime runs. Specifically, at truck exposure location III (shoulder after curve), 9 out of 12 drivers detected and recognized the truck with the beacon, 6 while 12 out of 12 did so with the warning triangles. This finding is salient to examine, considering that locations with curves would logically present a challenging scenario for fixed beacons versus triangles whose placement can be adjusted based on curves.
Footnotes:
5 ?Appendix C of the Waymo study (Waymo study at 25) includes a map with a star at the curve location that did not appear from the map to be a very sharp curve. In Aurora's study, it was also difficult to determine whether the curves were sharp from the maps. For example, when examining the left curve shown in Appendix A (at coordinates 32.3089, -96.593) in Google maps, it appears this location has a posted speed limit of 75 mph. FMCSA notes a sharp curve would have a lower posted speed limit, depending on the curve's radius.
6 ?Table 3 (Waymo study at 16), clearly shows that only 9 out of 12 drivers detected the scenario with the beacon at location III for daytime runs. The driver detection data for nighttime runs at that same location is unclear, however, since Table 17 (Id. at 41) shows non-response for the button press for 2 beacons and 1 triangle, with 2 non-response observations occurring at location III and 1 occurring at location II, making it difficult to determine whether the beacons were missed 16.67% of the time (2 out of 12) or 8.33% of the time (1 out of 12) at the curve.
Fourth, while Applicants seek an exemption for CMVs operating in a Level 4 autonomous mode (App. at 9), Applicants did not support that vehicles operating in an autonomous mode will stop and engage flashers and beacons similar to the CMVs in the studies. For example, in the Waymo study, it appears that CMVs began in a stopped position, while in the Aurora study, a human driver apparently stopped the vehicle, and in both studies, a human apparently activated both the hazard warning flashers and the beacon devices. Waymo study at 7, 9; Aurora study at 5-6; App. at 11 n.21. Thus, neither study demonstrated that CMVs operating in Level 4 autonomous mode will effectively engage hazard lamps and/or proposed beacons, or the timing with which they would do so, and how that timing compares to timing required under the FMCSRs. And while Applicants contend that they will be able to address electrical failure, Applicants did not provide evidence regarding how they will do so. Applicants' request to exempt a class of unspecified carriers using unspecified equipment on unspecified vehicles only further undermines the claimed likely equivalent level of safety.
Applicants and some commenters noted potential safety benefits to human drivers. Indeed, in their "safety impact" analysis, Applicants state that the exemption would increase safety "most notably by eliminating the need for a human to enter the roadway to place traditional warning devices" and that while the application applies to CMVs without a human driver, the safety rationale could apply to conventional CMVs. App. at 9. The exemption request, however, is not directed at such circumstances-Applicants request that the exemption be permitted where there is no human driver or where drivers are used only for testing. App. at 4. Indeed, Applicants contend that no human drivers will be affected. App. at 9. While FMCSA agrees that there is promise for improving safety for CMV drivers if they do not need to leave a vehicle to place warning devices, neither Applicants nor the public comments presented data to allow FMCSA to find an equivalent or higher level of safety when using the proposed beacons for carriers operating CMVs with human drivers, and Applicants did not request an exemption to cover such operations.
Fifth, there are other limitations of the application to support the scope sought. For example, the studies do not address visibility of proposed beacons for vehicle orientations with varying trailer heights, such as (for example) a truck tractor pulling a flatbed trailer versus a van type trailer that is taller than the truck tractor. As certain commenters observed, Applicants did not address how proposed beacons might perform in scenarios such as a CMV on its side. Applicants likewise seek a nationwide exemption based only on limited data from a test track in Virginia and a portion of Interstate 45 in Texas between Exits 258 and 249, and without establishing how warning beacons might perform in different geographical or weather conditions across the country.
[top] Sixth, should Applicants (or future applicants) provide sufficient details about proposed alternative warning devices, FMCSA notes that industry-wide exemptions are not the norm and FMCSA grants them only on a very limited basis. Applicants present little data on the effect such a broad exemption would have on overall safety, particularly considering the unknown group of autonomous CMV operators at
Footnotes:
7 ?Applicants do not provide the names of motor carriers that would be responsible under the exemptions or the estimates-even for their own operations-of the number of drivers and CMVs that would be operated under the exemption. See 49 CFR 381.310(b) and (c). Such information would assist the Agency in assessing the equivalent level of safety for operations with the proposed alternative devices.
VI. Conclusion
For the reasons given above, the Agency denies the application for an exemption.
FMCSA notes that the Agency may accept a resubmission of an exemption application that has been denied, provided that the applicant can reasonably address the reason for the denial. 49 U.S.C. 31315(b)(3); 49 CFR 381.317.
Vincent G. White,
Deputy Administrator.
[FR Doc. 2024-30860 Filed 12-26-24; 8:45 am]
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