NOT FOR PUBLICATION WITHOUT THE
APPROVAL OF THE APPELLATE DIVISION
This opinion shall not "constitute precedent or be binding upon any court." Although it is posted on the
internet, this opinion is binding only on the parties in the case and its use in other cases is limited. R. 1:36-3.
SUPERIOR COURT OF NEW JERSEY
APPELLATE DIVISION
DOCKET NO. A-5486-16T2
STATE OF NEW JERSEY,
Plaintiff-Respondent,
v.
RICHARD CARRERA,
Defendant-Appellant.
_____________________________
Argued September 21, 2018 – Decided August 26, 2019
Before Judges O'Connor and DeAlmeida.
On appeal from the Superior Court of New Jersey, Law
Division, Essex County, Indictment No. 17-04-0908.
Stefan Van Jura, Deputy Public Defender, argued the
cause for appellant (Joseph E. Krakora, Public
Defender, attorney; Stefan Van Jura, of counsel and on
the brief).
Kayla Elizabeth Rowe, Acting Assistant
Prosecutor/Special Deputy Attorney General, argued
the cause for respondent (Theodore N. Stephens II,
Acting Essex County Prosecutor, attorney; Kayla
Elizabeth Rowe, of counsel and on the brief).
PER CURIAM
Defendant Richard Carrera appeals from a December 9, 2016 order of the
Law Division denying his motion to preclude the anticipated testimony of an
expert witness who used historical cell site data analysis to opine defendant's
cell phone was used in the general area of a homicide at the approximate time
of the crime. After the trial court denied the motion, defendant entered a guilty
plea to manslaughter and a weapons offense, reserving the right to challenge the
court's decision. We affirm in part, reverse in part, and remand for further
proceedings.
I.
This appeal arises from the February 8, 2014 shooting death of Reylin
Torres in a car on a Newark street. The details of the shooting are not relevant
to the issues before the court. A grand jury indicted defendant and co-defendant
Mark Hoskins for the shooting, charging them with: first-degree conspiracy to
commit murder, N.J.S.A. 2C:5-2 and N.J.S.A. 2C:11-3(a)(1); first-degree
murder, N.J.S.A. 2C:11-3(a)(1); second-degree unlawful possession of a
weapon, N.J.S.A. 2C:39-5(b); second-degree possession of a weapon for an
unlawful purpose, N.J.S.A. 2C:39-4(a); second-degree conspiracy to commit
robbery, N.J.S.A. 2C:5-2(a)(1) and N.J.S.A. 2C:15-1(a)(1); first-degree robbery,
A-5486-16T2
2
N.J.S.A. 2C:15-1(a)(1); first-degree felony murder, N.J.S.A. 2C:11-3(a)(3); and
second-degree certain persons not to have weapons, N.J.S.A. 2C:39-7(b).
Defendant entered a plea of not guilty.
During discovery, the State notified defendant of its intention to call FBI
Special Agent John Hauger, a member of the FBI's Cellular Analysis Survey
Team (CAST), as an expert in historical cell site data analysis. Hauger was
prepared to offer the opinion that, based on his analysis of historical cell site
data, cell phones belonging to defendant and Hoskins exchanged transmissions
in the general area of the crime scene at about the time of the shooting.
Defendant moved pursuant to N.J.R.E. 104 to preclude Hauger's
testimony. Although he did not object to Hauger's qualifications as an expert or
claim that the proposed testimony was within the ken of the average juror,
defendant argued the process Hauger used to reach his opinion is not a generally
accepted method in the scientific community, rendering his opinion and exhibits
inadmissible. Defendant also challenged the admission of the illustrative
exhibits the expert created to assist the jury to understand his opinion.
The following facts are derived from the record of the hearing on
defendant's motion, at which Hauger and Sprint radio frequency engineer
Michael Zahra, who was qualified at the hearing as an expert in
A-5486-16T2
3
telecommunications, and cell tower and cell phone operations, testified.
Historical cell site data analysis relies on the fact that a cell phone uses radio
frequencies to connect to nearby cell phone towers. A typical cell tower has
three 120 degree sectors, covering the full 360 degrees surrounding the tower
with antennae tilted downward for the purpose of providing blanket connectivity
near the tower. The area covered by a tower is not a perfect circle and the
coverage areas of nearby towers may overlap, particularly in urban areas.
From the moment a cell phone is turned on it constantly scans the radio
frequency environment for the strongest signal from a cell tower. The cell
phone's scanning takes place whether or not the cell phone is moving. When a
cell phone "sees" a tower, it identifies itself, provides its location to the tower,
and receives acknowledgment from the tower. The tower with the "strongest,
clearest" signal is the one to which the cell phone will "more than likely"
connect. This is known as the "serving cell" and is not necessarily the closet in
proximity to the cell phone, as the closest tower may not be operative, or its
signal may be blocked by an obstruction, such as a building or natural feature.
The cell phone surveys other towers around the serving cell, measuring the
signal strength of those towers. If a cell phone is in an area of overlapping
coverage, it may switch back and forth between serving cells.
A-5486-16T2
4
The cell phone idles on the serving cell until the user initiates a call. At
that point, the cell phone communicates with the tower, indicating that it is
trying to make a call. The tower thereafter authorizes the call. If the tower is
operating at capacity, it will reroute the cell phone to another nearby tower,
provided the cell phone's connection to that tower is sufficient to support the
call. A cell phone can communicate with a tower only if the cell phone is within
the tower's range. An at-capacity tower, therefore, will never reroute a cell
phone to a tower to which the cell phone cannot connect. Towers in the Newark
area reach capacity an average of less than two percent of the time. A call placed
in an area of overlapping coverage could be routed to either tower providing
coverage.
A record is generated when a cell phone connects to a tower to make a
call. The record contains the calling number, the number dialed, the date and
time that a call was placed, the end time of the call, the duration of the call, and
the last tower to which the phone was connected during the call. No record is
created if the cell phone is unable to connect to a tower when attempting a call.
An ongoing call may be transferred from tower to tower, particularly if the cell
phone is moving, but may also be transferred when a tower approaches capacity.
Only the towers at which a call originates and ends are recorded.
A-5486-16T2
5
Hauger explained that historical cell site data analysis provides "the
approximate area . . . of where a cell phone was when it connected" to an
identified sector of a tower at a particular date and time. When Hauger examines
a call to a particular sector of a tower, he depicts on a map a "footprint" that
roughly reflects a 120-degree, open-ended pie-wedge shape of intended
coverage for that sector. The depiction does not have "a nice crisp line" showing
the outer bound of a tower's signal. In addition, the actual coverage area may
extend beyond the depicted coverage area.
Hauger specified that although he can show a phone communicated within
the footprint of the sector of a tower on a particular date and time, he is not able
to place the phone at any specific location within the footprint. As he explained,
"[a]ll I can do is say the phone utilized this particular tower or this particular
sector for this particular call, and that sector most likely covers this area." He
admitted "there's no way to measure how far away . . . a phone was from a
particular tower" and his analysis would "never be able to tell you where a phone
was down to the address or to the corner[.]"
The State introduced maps created by Hauger depicting his opinion of the
roughly pie-wedge shaped area covered by a sector of T-Mobile Tower 3397
(Tower 3397) and Sprint Tower 41-2 (Tower 41-2), both of which are near the
A-5486-16T2
6
site of the shooting. Data from the communications companies identified these
towers as having hosted three transmissions between cell phones belonging to
defendant and Hoskins on February 8, 2014, between 7:30 p.m. and 7:34 p.m.,
the date and approximate time of the shooting. The calls involved a cell phone
assigned a T-Mobile number and a cell phone assigned a Sprint number. The
murder site was near the coverage areas depicted on the maps.
The T-Mobile number called the Sprint number first, using Tower 3397
near the intersection of Orange and Seventh Streets in Newark, about a block
from the crime scene. The data indicated that the call used an antenna serving
sector seven of the tower. Using a chart depicting the pie-wedge shaped area
covered by the sector seven antenna overlaid on a map of Newark, Hauger
opined the cell phone with the T-Mobile number was in the pie-wedge shaped
area near the murder scene. He also opined that the T-Mobile phone number the
received two calls from Tower 3397's sector seven in the next two minutes.
Based on the historical cell phone data from the cell phone assigned the
Sprint phone number, Hauger opined that the Sprint cell phone communicated
with Tower 41-2, which was close to Tower 3397 and also near the intersection
of Orange and Seventh Streets, for four calls during the approximate time of the
A-5486-16T2
7
shooting: the three calls from the T-Mobile phone number and a fourth incoming
call from a phone number in the 862 area code.
Although he relied on the map depicting the 120-degree intended service
area of the towers, Hauger testified that "there is no way to tell without doing
drive tests what the actual . . . limit of the sector is" for the towers. He conducted
a drive test for the two towers on December 22, 2015, twenty-two months after
the shooting. He described the process of conducting a drive test as follows:
[I u]se a device called . . . [a] gladiator autonomous
receiver, it's a scanner, built by Venture Designs which
is a scanning company that builds scanners for the cell
phone industry. So I take the scanner and program it
for Sprint and T-Mobile and I get in my car. What the
scanner is doing is it's listening for the Sprint and T-
Mobile frequencies where cell phones communicate on.
And it's measuring the signal strength of the towers as
I drive by. So I plug in the machine, set it up to measure
the right – the appropriate characters – or carriers, and
basically drive every street in the area so the scanner
listens to the cellular environment and it determines
where a particular phone would go if a phone was
placed at that particular moment. It does it like two or
three times a second. So what a drive test is is a – the
best way that we have currently of determining what the
actual cellular footprint of a tower is, without the
theoretical pie wedges that we've been showing. It is
the measured radio frequency.
He testified that he was trained with the Gladiator device annually and
that the device was examined for calibration annually. Testifying that cell phone
A-5486-16T2
8
carriers use a similar device for signal strength testing, Hauger stated that he
believed the Gladiator device is capable of providing a reliable scientific opinion
on cell site coverage. Hauger's drive test enabled him to produce a map with a
shaded area displaying the Gladiator's readout of the extent of the "dominant
coverage area" of the towers. Testifying the "dominant coverage area" displays
the range in which a cell phone would "more than likely" connect to that tower,
Hauger clarified that a cell phone would not connect to that tower one-hundred
percent of the time, especially near the edges of the "blob" where it would
potentially connect to a neighboring tower. Yet, according to Hauger, the drive
test largely confirmed the pie-wedge shaped coverage predictions he created.
Hauger acknowledged limitations to the drive-test, including that he can
only drive down streets and could not go in homes or non-public buildings.
Therefore, the Gladiator produces readings while driving down each street and
interpolates the outer bounds of the signal coverage map between streets at the
edge of the coverage area and in houses and other buildings. It is important to
note that the "dominant coverage area" as depicted by Hauger appears as a
A-5486-16T2
9
meandering shape, with disconnected outlying areas, missing inner portions, and
arms reaching out in multiple directions. 1
Hauger noted that terrain, including buildings and "any kind of large glass
structure, large glass and concrete," a bus, and even creek beds and water can
affect a cell phone connecting to the geographically closest cell tower.
Specifically, Hauger agreed that office buildings in Newark would affect which
tower a phone "saw best" and that radio waves could bounce off buildings or
other structures. He testified that "with reflection, refraction, that sort of thing,
radio waves do all kinds of things when confronted with steel, concrete, you
know, glass, that sort of thing." Hauger explained that a cell phone's ability to
communicate with a tower could be affected by
[a]ny new construction. Any large buildings. Well,
new construction is kind of – I really wouldn't want to
say all new construction because, I mean, somebody
could do a – build a sidewalk and that wouldn't effect
anything. But any large buildings that are either
demolished or constructed in that general area,
especially the area I drove relative to February of 2014,
that would affect [the tower signal footprint], yes.
1
Hauger clarified that a drive test only presents a footprint of signal strength at
ground level, which does not reflect dominant signal strength if the phone is
elevated, such as on a rooftop, or depressed, such as in a basement, or inside a
private building.
A-5486-16T2
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Hauger testified that there were multi-story apartment and commercial
buildings in the area of the towers he tested. He conceded he did not examine
building records or any other source to determine if any buildings were built or
demolished in the twenty-two months between the crime and the drive test. He
testified that he "certainly didn't notice any[ buildings that were] brand-new."
Hauger consulted T-Mobile records and a legal compliance attorney for
T-Mobile to confirm there was no change to Tower 3397's location, antenna tilt,
or its tower angle/azimuth between the date of the shooting and the date of the
drive test. On Tower 41-2, all tower elements remained the same, except during
the twenty-two-month period the antenna angle was decreased by two degrees.
Hauger offered the opinion that this change could potentially expand the tower's
footprint slightly. He could not explain the basis for that opinion, apart from
saying "a bunch of people" told him what the effect of the change in the antenna
angle would be.
Hauger did not consult maintenance logs to determine if the towers
surrounding Tower 3397 and Tower 41-2 were operational on February 8, 2014.
He acknowledged if the surrounding towers were not operational, the two
relevant towers would have had expanded cellular range footprints.
A-5486-16T2
11
Zahra's testimony disputed Hauger's assumption that a cell phone will
always connect to the tower from which it detects the strongest, clearest signal.
He testified that when the tower with the strongest, clearest signal is at or near
capacity, a cell phone will be rerouted to a neighboring tower with sufficient
coverage. In addition, after reviewing Hauger's coverage maps, Zahra agreed
Hauger's approximations of the two tower's coverage areas were fair. 2
On December 9, 2016, the court issued a written opinion and order
denying defendant's motion. The court noted that the parties did not dispute
Hauger's expertise or that the field of historical cell site data analysis was
beyond the ken of the average juror. The only issue before the court was whether
the methods used by Hauger to reach his opinions were sufficiently reliable to
admit his testimony and the exhibits he created.
The court rejected defendant's two primary objections to the reliability of
Hauger's methods – that calls may be rerouted from overloaded towers and that
Hauger's drive testing was limited by his inability to enter homes and other non-
public places. The court accepted Zahra's testimony that calls are rerouted from
the tower with the strongest signal when that tower is at or near capacity, which
2
Notably, the record contains no evidence with respect to the live tracking of a
cell phone using GPS coordinates, triangulation of radio signals, or otherwise.
The data examined by the experts concerned the historical use of cell phones.
A-5486-16T2
12
the court determined occurred only approximately two percent of the time. In
addition, the court observed that a rerouted call will be sent to a tower with
coverage in the area in which the cell phone is located, resulting in a minimal
geographic deviation from the coverage area of the tower from which it was
rerouted. In addition, the court, while recognizing the limitations of the drive
test and the pie-wedge shaped maps depicting the intended coverage area of the
two towers, concluded that the methods used by Hauger were sufficiently
reliable to render the maps and his testimony admissible.
On June 6, 2017, defendant withdrew his not guilty plea and entered a
negotiated plea of guilty to second-degree manslaughter, N.J.S.A. 2C:11-
4(b)(1), and second-degree unlawful possession of a weapon, N.J.S.A. 2C:39-
5(b)(1), reserving his right to appeal the trial court's decision. The court
sentenced defendant pursuant to the plea agreement to a six-year term of
imprisonment with an eighty-five-percent parole ineligibility period pursuant to
the No Early Release Act (NERA), N.J.S.A. 2C:43-7.2, as well as to a three-
year period of special parole supervision for manslaughter, and a concurrent
five-year term of imprisonment for the weapons offense, with forty-two months
of parole ineligibility pursuant to the Graves Act, N.J.S.A. 2C:43-6(c). The
remaining counts were dismissed.
A-5486-16T2
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This appeal followed. Defendant raises the following arguments for our
consideration:
POINT I
THE TRIAL COURT'S RULING ADMITTING THE
RESULTS OF THE DRIVE TEST AND HAUGER'S
OPINION ON THE LOCATION OF DEFENDANT'S
CELL PHONE NEAR THE TIME OF THE
HOMICIDE SHOULD BE REVERSED BECAUSE
THE "CAST" METHODOLOGY UPON WHICH
THEY RELY IS: 1) INHERENTLY UNRELIABLE;
AND 2) ESPECIALLY UNRELIABLE IN THIS
CASE.
POINT II
THE TRIAL COURT'S RULING ADMITTING THE
PIE[-]WEDGE MAPS SHOULD BE REVERSED
BECAUSE THEY ARE NOT RECOGNIZED BY THE
RADIO FREQUENCY ENGINEERING
COMMUNITY, AND IN ANY EVENT, THE
GEOGRAPHICAL REPRESENTATIONS THEY
EMBODY ARE TOO CRUDE TO AID THE JURY.
II.
Expert testimony is admissible when "scientific, technical, or other
specialized knowledge will assist the trier of fact to understand the evidence or
to determine a fact in issue" and the proposed expert has the requisite
"knowledge, skill, experience, training, or education" to form an expert opinion.
A-5486-16T2
14
N.J.R.E. 702. The rule creates three requirements for admission of expert
testimony:
(1) the intended testimony must concern a subject
matter that is beyond the ken of the average juror; (2)
the field testified to must be at a state of the art such
that an expert's testimony could be sufficiently reliable;
and (3) the witness must have sufficient expertise to
offer the intended testimony.
[State v. Kelly, 97 N.J. 178, 208 (1984).]
As noted above, only the second factor is at issue here.
It is well-established that New Jersey courts apply the general acceptance
within a scientific community test set forth in Frye v. United States, 293 F. 1013
(D.C. Cir. 1923), to determine the admissibility of expert testimony in criminal
cases. While our Supreme Court "adopted the factors identified in Daubert v.
Merrell Dow Pharms., Inc., 509 U.S. 579, 593-95 (1993), and a methodology-
based approach for determining scientific reliability in certain areas of civil law,
[the Court has] not altered [its] adherence to the general acceptance test for
reliability in criminal matters." State v. Cassidy, 235 N.J. 482, 492 (2018).
"Proof of general acceptance within a scientific
community can be elusive," and "[s]atisfying the test
involves more than simply counting how many
scientists accept the reliability of the proffered
[technique]." State v. Harvey, 151 N.J. 117, 171
(1997). General acceptance "entails the strict
application of the scientific method, which requires an
A-5486-16T2
15
extraordinarily high level of proof based on prolonged,
controlled, consistent, and validated experience." Ibid.
(quoting Rubanick v. Witco Chem. Corp., 125 N.J. 421,
436 (1991)). The proponent of the technique has the
burden to "clearly establish" general acceptance, State
v. Johnson, 42 N.J. 146, 171 (1964), and may do so
using "(1) expert testimony, (2) scientific and legal
writings, and (3) judicial opinions," State v. Cavallo, 88
N.J. 508, 521 (1982)[.]
[Ibid. (alterations in original).]
"Thus, the test in criminal cases [is] whether the scientific community generally
accepts the evidence." Harvey, 151 N.J. at 170. To establish general
acceptance, "the party proffering the evidence need not show infallibility of the
technique nor unanimity of its acceptance in the scientific community."
Cassidy, 235 N.J. at 492. "[T]he State's burden is to prove that the . . . test and
the interpretation of its results are non-experimental, demonstrable techniques
that the relevant scientific community widely, but perhaps not unanimously,
accepts as reliable." Harvey, 151 N.J. at 171.
"Whether expert testimony is sufficiently reliable to be admissible under
N.J.R.E. 702 is a legal question we review de novo." State v. J.L.G., 234 N.J.
265, 301 (2018). "When reviewing a decision on the admission of scientific
evidence, an appellate court should scrutinize the record and independently
A-5486-16T2
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review the relevant authorities, including judicial opinions and scientific
literature." Harvey, 151 N.J. at 167.
Having carefully reviewed the record in light of the applicable precedents,
we affirm the trial court's conclusion that historical cell site data analysis is
generally accepted in the scientific community and sufficiently reliable to be
admitted into evidence to show the general location of a cell phone at a particular
time. We therefore affirm the court's December 9, 2016 order to the extent that
it reaches the same conclusion. However, we conclude that shortcomings in
Hauger's methodology render the opinion he offered in this case unreliable. As
a result, we reverse that portion of the trial court's order permitting the admission
of Hauger's testimony and the exhibits he created, and remand for further
proceedings. We add the following comments.
III.
There is no published opinion in this State squarely addressing the
admissibility of historical cell site data analysis in a criminal matter. A number
of out-of-state and federal precedents, however, are instructive.
Federal courts have been receptive to expert testimony regarding
historical cell site data analysis. "District courts that have been called upon to
decide whether to admit historical cell-site analysis have almost universally
A-5486-16T2
17
done so." United States v. Hill, 818 F.3d 289, 297 (7th Cir. 2016); accord United
States v. Reynolds, 626 Fed. Appx. 610, 616-17 (6th Cir. 2015) (allowing
historical cell site data analysis to show where parties other than defendant were
not); United States v. Schaffer, 439 F. App'x 344, 347 (5th Cir. 2011)
(concluding that the field of historical cell site data analysis "is neither untested
nor unestablished"); United States v. Weathers, 169 F.3d 336, 339 (6th Cir.
1999) (admitting expert testimony on historical cell site data analysis); United
States v. Jones, 918 F. Supp. 2d 1, 5 (D.D.C. 2013) (finding "the use of cell
phone location records to determine the general location of a cell phone" to be
both widely accepted and "based on reliable methodology"); United States v.
Evans, 892 F. Supp. 2d 949, 955-56 (N.D. Ill. 2012) (finding "granulization
theory" to be unreliable science, but still finding other historical cell site data
analysis methods have been adequately tested).
So too have the courts of other States. State v. DePaula, 166 A.3d 1085,
1097-99 (N.H. 2017) (admitting historical cell site data analysis as lay witness
testimony); State v. Johnson, 797 S.E.2d 557, 563 (W.Va. 2017); Pullin v. State,
534 S.E.2d 69, 71 (Ga. 2000); Wilson v. State, 195 S.W.3d 193, 200-02 (Tex.
Crim. App. 2006) (allowing a Sprint employee to testify as an expert on
historical cell site data analysis); contra Phillips v. State, 163 A.3d 230, 234
A-5486-16T2
18
(Md. Ct. App. 2017) (noting trial court found the State failed to establish the
FBI agent's drive tests were generally accepted in the relevant community).
Courts, however, have barred admission of expert testimony on historical
cell site data analysis where the method used by a particular expert renders the
testimony unreliable. See generally Omnipoint Commc'n. Enters., L.P. v.
Zoning Hearing Bd., 331 F.3d 386, 399 (3rd Cir. 2003) (finding a lack of drive
test data renders an expert's opinion on signal strength unsupported); United
States v. Sepulveda, 115 F.3d 882, 891 (11th Cir. 1997) (finding the expert's
testimony lacked precision and thus did not support the particular premise at
issue).
This court has allowed expert testimony on drive testing in civil matters
for the purpose of showing lackluster cell coverage in a municipality. N.Y.
SMSA Ltd. v. Twp. of Mendham Zoning Bd. of Adjustment, 366 N.J. Super.
141, 150 (App. Div. 2004); N.Y. SMSA, L.P. v. Bd. of Adjustment, 370 N.J.
Super. 319, 337 (App. Div. 2004); Sprint Spectrum, L.P. v. Zoning Bd. of
Adjustment, 360 N.J. Super. 373, 379 (App. Div. 2003); Sprint Spectrum, L.P.
v. Borough of Upper Saddle River Zoning Bd. of Adjustment, 352 N.J. Super.
575, 587-88 (App. Div. 2002). We have recognized that a cell phone company
A-5486-16T2
19
performing a drive test "to determine the gap in coverage was accurate and
accepted in the industry[.]" Sprint Spectrum, 360 N.J. Super. at 389.
The Seventh Circuit found that "[h]istorical cell-site analysis can show
with sufficient reliability that a phone was in a general area, especially in a well-
populated one. It shows the cell sites with which the person's cell phone
connected, and the science is well understood." Hill, 818 F.3d at 298 (noting
that the analysis "requires specialized training" which was satisfied by the FBI
Special Agent in the matter, who had employed the method extensively). The
court, however, made clear that historical cell site data analysis must be
presented with caution:
Our concern is that the jury may overestimate the
quality of the information provided by this analysis.
We therefore caution the government not to present
historical cell-site evidence without clearly indicating
the level of precision—or imprecision—with which
that particular evidence pinpoints a person's location at
a given time. The admission of historical cell-site
evidence that overpromises on the technique's
precision—or fails to account adequately for its
potential flaws—may well be an abuse of discretion.
[Id. at 299.]
Hauger adequately conveyed the limitations inherent in historical cell site
data analysis, acknowledging its limitation of providing only a general area in
which a cell phone could be located. Had this matter proceeded to trial,
A-5486-16T2
20
defendant's counsel would have been free to explore through cross-examination
the limitations of Hauger's analysis.
Our analysis also applies to the charts Hauger created to depict the
intended pie-wedge shaped coverage area of the towers. Pie-shaped wedges are
not intended to portray a cell tower sector's actual coverage area. Jones, 918 F.
Supp. 2d at 5.
[T]he size of the pie-shaped wedge is unimportant. The
radius of the sides of the wedge, and thus the distance
of the connecting arc from the cell tower, is not meant
to convey the coverage area of the signal coming from
that antenna. The wedge is drawn in simply to indicate
the direction of the sector to which the phone
connected. The signal from that antenna could extend
less far or farther away from the cell tower than the
length of the pie-shaped wedges. Thus, because [the
FBI Special Agent] does not purport to portray the
"coverage area" of any particular cell tower or antenna,
he cannot be said to have used an unreliable
methodology in doing so.
[Ibid.]
Both experts agreed that pie-wedge charts generate a reliable estimation
of the coverage area of a given cell tower sector. Although defendant rightly
points out that the drive test reflected a coverage footprint that exceeded the
120-degree pie wedge in some places and contained gaps within the pie wedge
in others, Hauger used the pie-wedge shaped areas solely as a starting point
A-5486-16T2
21
before his drive test. Further, Hauger made the limitations inherent in pie-wedge
charts clear throughout his testimony, acknowledging they are merely an
estimation and starting point, not an actual footprint boundary. Had this matter
proceeded to trial presumably those limitations would have been made known
to the jury.
IV.
It is undisputed that a tower's footprint can shift over time due to changes
in the surrounding environment. "[B]ecause radio waves extend out horizontally
and then descend, coverage is affected by the surrounding topography . . . ."
Sprint Spectrum, L.P., 360 N.J. Super. at 379. "While the proximity of the user
is a significant factor in determining the cell tower with which the cell phone
connects, it is not the only one . . . . [O]ther factors include . . . geography and
topography . . . and 'environmental and geographical factors.'" Hill, 818 F.3d at
295-96 (quoting Aaron Blank, The Limitations and Admissibility of Using
Historical Cellular Site Data to Track the Location of a Cellular Phone, 18 Rich.
J.L. & Tech. 3, 5 (2011)). "[S]ignal strength may depend upon environmental
and geographical factors, including the weather, topography, and level of urban
development." Blank, 18 Rich. J.L. & Tech. at 3.
A-5486-16T2
22
Hauger acknowledged that because he did not examine construction
records or any other source of information he did not know whether any
buildings or other structures were built or destroyed in or around Tower 3397
and Tower 41-2 in the twenty-two months between the shooting and his drive
test. If there were buildings erected in those months, the coverage map for the
towers, as measured during Hauger's drive test, could represent a smaller
dominant signal range than existed at the time of the shooting. If buildings were
destroyed during that period, Hauger's drive test coverage map might show a
larger dominant signal range than existed at the time of the shooting.
Although we affirm the court's conclusion that a drive test is a generally
accepted method of historical cell site data analysis, we conclude that Hauger's
failure to investigate environmental changes in the area of the two towers in the
twenty-two months between the shooting and the drive test render his opinion
in this matter unreliable. Hauger's observation that he did not notice any new
construction during the drive test is insufficient to render his drive test reliable.
We therefore reverse the December 9, 2016 order to the extent that it permitted
the admission of Hauger's testimony and the exhibits he created.
A-5486-16T2
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To the extent we have not specifically addressed any of defendant's
remaining arguments it is because we conclude they lack sufficient merit to
warrant discussion in a written opinion. R. 2:11-3(e)(2).
Affirmed in part, reversed in part, and remanded for proceedings
consistent with this opinion. We do not retain jurisdiction.
A-5486-16T2
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