Notice of Government Owned Inventions Available for Licensing, 16802-16803 [05-6480]
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Federal Register / Vol. 70, No. 62 / Friday, April 1, 2005 / Notices
standards, and (2) develop usability test
protocols for conformance testing of
such standards. NIST may also examine
relevant instructions, documentation
and error messages, without doing any
direct usability studies thereon.
Interested manufacturers should
contact NIST at the address given above.
NIST will supply a Letter of
Understanding, which the manufacturer
must execute and send back to NIST.
NIST will then provide the
manufacturer with shipping instructions
for the manufacturer’s equipment.
The equipment provided will be
returned to the manufacturer after the
NIST experiments, approximately one
year from commencement of the
experiments. Manufacturers should be
aware that some of the testing could
damage or destroy the equipment,
although NIST expects only normal
wear and tear associated with
approximately 100 to 1,000 votes cast
on the equipment by simulated voters.
At the conclusion of the experiments,
the equipment will be returned to the
manufacturer in its post-testing
condition. Neither NIST, nor the
Election Assistance Commission, nor
the Technical Guidelines Development
Committee, will be responsible for the
condition of the equipment when
returned to the manufacturer. As a
condition for participating in this
program, each manufacturer must agree
in advance to hold harmless all of these
parties for the condition of the
equipment.
Information acquired during the tests
regarding potential usability problems
will be reported to the respective
manufacturer. Results for identifiable
vendor equipment will not be released.
Comparative information may be
released in a blind manner. Performance
standards benchmarks and conformance
test procedures will be made publicly
available.
Participating manufacturers should
include or provide a technical tutorial
on the setup and deployment of the
equipment. NIST will pay all shipping
costs, and there is no cost to the
manufacturer for the testing. No
modification to the equipment is
permitted during the testing process.
Voting equipment used in the 2004
elections that will be accepted for the
experiments includes Direct Recording
Electronic, and Optical Scan systems
used to cast and count votes as well as
software used for ballot design and
creation.
VerDate jul<14>2003
17:15 Mar 31, 2005
Jkt 205001
Dated: March 24, 2005.
Hratch G. Semerjian,
Acting Director.
[FR Doc. 05–6479 Filed 3–31–05; 8:45 am]
BILLING CODE 3510–13–P
DEPARTMENT OF COMMERCE
National Institute of Standards and
Technology
Notice of Government Owned
Inventions Available for Licensing
National Institute of Standards
and Technology, Commerce.
ACTION: Notice of Government owned
inventions available for licensing.
AGENCY:
The inventions listed below
are owned in whole or in part by the
U.S. Government, as represented by the
Department of Commerce. The
inventions are available for licensing in
accordance with 35 U.S.C. 207 and 37
CFR part 404 to achieve expeditious
commercialization of results of federally
funded research and development.
FOR FURTHER INFORMATION CONTACT:
Technical and licensing information on
these inventions may be obtained by
writing to: National Institute of
Standards and Technology, Office of
Technology Partnerships, Attn: Mary
Clague, Building 820, Room 213,
Gaithersburg, MD 20899. Information is
also available via telephone: 301–975–
4188, fax 301–869–2751, or e-mail:
mary.clague@nist.gov. Any request for
information should include the NIST
Docket number and title for the
invention as indicated below.
SUPPLEMENTARY INFORMATION: NIST may
enter into a Cooperative Research and
Development Agreement (‘‘CRADA’’)
with the licensee to perform further
research on the invention for purposes
of commercialization. The inventions
available for licensing are:
SUMMARY:
[NIST Docket Number: 01–022US]
Title: Miniature Frequency Standard
Based nn All-Optical Excitation and a
Micromachined Containment Vessel.
Abstract: This invention is jointly
owned by NIST and the University of
Colorado. A microwave frequency
standard is provided which allows for
miniaturization down to length scales of
order one micron, comprising a
modulated light field originating from a
laser that illuminates a collection of
quantum absorbers contained in a
micro-machined cell. The frequency
standard of the present invention can be
based on all-optical excitation
techniques such as coherent population
trapping (CPT) and stimulated Raman
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Sfmt 4703
scattering or on conventional
microwave-excited designs. In a CPTbased embodiment, a photodetector
detects a change in transmitted power
through the cell and that is used to
stabilize an external oscillator to
correspond to the absorber’s transition
frequency by locking the laser
modulation frequency to the transition
frequency. In a stimulated Raman
scattering (SRS) embodiment, a highspeed photodetector detects a laser field
transmitted through the cell beating
with a second field originating in the
cell. Both the locked laser modulation
frequency and the beat frequency are
very stable as they are referenced
directly to the atomic transition.
[NIST Docket Number: 02–002US]
Title: Low Cost Portable Refreshable
Tactile Graphic Display.
Abstract: Pressure-based refreshable
scanning tactile graphic display
apparatus and methods are disclosed for
localized sensory stimulation. The
apparatus include a display array
having stimulus points embedded in a
matrix, an energy source applied at the
stimulus points through a modulator, a
control unit, and a position sensing and
feedback unit or units (such as a mousetype device or data glove, for example).
The energy source is preferably stored
and pressurized fluid with application
to selected stimulus points (pins, for
example) preferably directed at a
microvalve array under the control of a
computer-based control unit.
[NIST Docket Number: 03–006US]
Title: Optical Probes for Chemical and
Biochemical Detection in Liquids.
Abstract: A class of optical sensors is
provided for chemical and biochemical
detection in liquids in which the
sensing element is a low-loss optical
resonator that requires or benefits from
precision optical contacting in the
fabrication process. Novel resonator
designs can be created by contacting
multiple components to form integral
sensing elements with low-loss
mechanically strong bonds between
components. Stigmatic, weakly
stigmatic and astigmatic Gaussian mode
resonators and whispering gallery mode
resonators are described which can be
immersed in a liquid to detect chemical
species through a change in optical
properties. High-reflectivity coated
surfaces are used to permit direct
excitation of resonator modes by a
propagating optical beam, while total
internal reflection surfaces provide an
evanescent wave for sampling the
optical properties of the ambient
medium. Resonators are described with
vicinal input and output ports, which
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01APN1
Federal Register / Vol. 70, No. 62 / Friday, April 1, 2005 / Notices
facilitate the construction of compact,
distal probes where input and output
beams are introduced and accessed in
close proximity.
[NIST Docket Number: 03–009US]
Title: Spectrally Tunable Solid-state
Light Source.
Abstract: A radiometrically stable,
spectrally tunable, solid-state source has
been developed. The radiometric
outputs of individually controlled,
narrow bandwidth, solid-state sources
with different spectral distributions are
combined in an integrating sphere to
approximate any desired spectral
distribution. Utilizing a sufficient
number of independent solid-state
source channels, the source can be
tuned to approximate the spectral
distribution of any desired source
distribution. A stable reference
spectroradiometer that is integrated into
the solid-state light source measures the
spectral radiance and is used to adjust
the output of the individual channels.
[NIST Docket Number: 04–003US]
Title: Controlled Vesicle SelfAssembly in Continuous Two Phase
Flow Microfluidic Channels.
Abstract: It shows the formation of
liposomes that encapsulate reagents in a
continuous 2-phase flow planar
microfluidic network with precision
control of size, over the range of 100
nanometers to 300 nanomaters, by
control of liquid flow rates. By creating
a solvent-aqueous interfacial region in a
microfluidic format that is homogenous
and controllable on the length scale of
a liposome, the fine control of liposome
size and polydisperisity is facilitated.
Dated: March 25, 2005.
Hratch G. Semerjian,
Acting Director.
[FR Doc. 05–6480 Filed 3–31–05; 8:45 am]
BILLING CODE 3510–13–P
DEPARTMENT OF COMMERCE
[I.D.032405D]
Receipt of an Application for Incidental
Take Permit (1528)
National Marine Fisheries
Service (NMFS), National Oceanic and
Atmospheric Administration,
Commerce
ACTION: Notice of availability.
AGENCY:
SUMMARY: NMFS has received an
application for an incidental take permit
(Permit) from the North Carolina
Division of Marine Fisheries (NCDMF)
17:15 Mar 31, 2005
Jkt 205001
Written comments from
interested parties on the Permit
application and Plan must be received
at the appropriate address or fax number
(see ADDRESSES) no later than 5 p.m.
Eastern daylight time on May 2, 2005.
DATES:
Written comments on this
action should be addressed to Therese
Conant, Marine Mammal and Turtle
Division, NMFS Office of Protected
Resources, 1315 East-West Highway,
Silver Spring, MD, 20910; or by fax
(301) 427–2522, or by e-mail at:
NMFS.1528@noaa.gov. The application
is available for download and review at
https://www.nmfs.noaa.gov/protlres/
PR3/Permits/ESAPermit.html.
ADDRESSES:
FOR FURTHER INFORMATION CONTACT:
Therese Conant (ph. 301–713–1401, fax
301–427–2522, e-mail
Therese.Conant@noaa.gov; Dennis
Klemm (ph. 727–824–5312, fax 727–
824–5309, e-mail
Dennis.Klemm@noaa.gov). Comments
received will also be available for public
inspection, by appointment, during
normal business hours by calling 301–
713–1401.
Section 9
of the ESA and Federal regulations
prohibit the ‘‘taking’’ of a species listed
as endangered or threatened. The term
‘‘take’’ is defined under the ESA to
mean harass, harm, pursue, hunt, shoot,
wound, kill, trap, capture, or collect, or
to attempt to engage in any such
conduct. NMFS may issue permits,
under limited circumstances, to take
listed species incidental to, and not the
purpose of, otherwise lawful activities.
Section 10(a)(1)(B) of the ESA provides
for authorizing incidental take of listed
species. NMFS regulations governing
permits for threatened and endangered
species are promulgated at 50 CFR
222.307.
SUPPLEMENTARY INFORMATION:
National Oceanic and Atmospheric
Administration
VerDate jul<14>2003
pursuant to the Endangered Species Act
of 1973, as amended (ESA). As required
by the ESA, NCDMF’s application
includes a conservation plan designed
to minimize and mitigate any such take
of endangered or threatened species.
The Permit application is for the
incidental take of ESA-listed adult and
juvenile sea turtles associated with
otherwise lawful commercial fall gill net
fisheries for flounder operating in
Pamlico Sound, NC. The duration of the
proposed Permit is for 6 years. NMFS is
furnishing this notice in order to allow
other agencies and the public an
opportunity to review and comment on
this document. All comments received
will become part of the public record
and will be available for review.
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16803
Species Covered in this Notice
The following species are included in
the conservation plan and Permit
application: Loggerhead (Caretta
caretta), green (Chelonia mydas),
leatherback (Dermochelys coriacea),
hawksbill (Eretmochelys imbricata), and
Kemp’s ridley (Lepidochelys kempii) sea
turtles.
Background
NMFS issued Permit #1259 to
NCDMF (65 FR 65840, November 2,
2000), Permit #1348 (66 FR 51023,
October 5, 2001), and Permit #1398 (67
FR 67150, November 4, 2002) for
managing the sea turtle interactions in
certain factions of the commercial fall
gill net fisheries for flounder in the
southeastern portion of Pamlico Sound.
On March 22, 2005, NCDMF submitted
an application to NMFS for a Permit
(#1528) authorizing incidental take of
ESA-listed sea turtles associated with
the shallow water fishery for the 2005
through 2010 fall fishing seasons. This
application includes endangered
Kemp’s ridley, leatherback, and
hawksbill sea turtles and the threatened
green and loggerhead sea turtles. This
fishery targets flounder. The proposed
implementation of this fishery will
allow for the continued commercial
harvest of this species. This fishery is
estimated to have a value of over one
million dollars per year. This fishery
supports fishermen and the local
economy.
Conservation Plan
The conservation plan prepared by
NCDMF describes measures designed to
monitor, minimize, and mitigate the
incidental takes of ESA-listed sea
turtles. The conservation plan includes
managing the shallow water large and
small mesh gill net fishery which
operates from April through December
in areas adjacent to the Outer Banks and
mainland in Pamlico Sound. Seven gill
net restricted areas (GNRAs) will be
designated for the eastern Pamlico
Sound and one GNRA in the western
Pamlico Sound along the mainland in
Hyde and Pamlico Counties.
The seven eastern GNRAs consist of
waters extending out from the barrier
islands to a depth of less than 20 feet
(6.1 m). The seven GNRAs from south
to north are as follows: (1) the area from
Wainwright Island bound by Core
Banks; (2) the area surrounding
Ocracoke Inlet; (3) the area north of
Ocracoke Inlet to just south of Hatteras
Inlet; (4) the area surrounding Hatteras
Inlet; (5) the area north of Hatteras inlet
to Avon; (6) the area north of Avon to
south of Oregon Inlet; and (7) the area
surrounding Oregon Inlet.
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]]>Agencies
[Federal Register Volume 70, Number 62 (Friday, April 1, 2005)]
[Notices]
[Pages 16802-16803]
From the Federal Register Online via the Government Printing Office [www.gpo.gov]
[FR Doc No: 05-6480]
-----------------------------------------------------------------------
DEPARTMENT OF COMMERCE
National Institute of Standards and Technology
Notice of Government Owned Inventions Available for Licensing
AGENCY: National Institute of Standards and Technology, Commerce.
ACTION: Notice of Government owned inventions available for licensing.
-----------------------------------------------------------------------
SUMMARY: The inventions listed below are owned in whole or in part by
the U.S. Government, as represented by the Department of Commerce. The
inventions are available for licensing in accordance with 35 U.S.C. 207
and 37 CFR part 404 to achieve expeditious commercialization of results
of federally funded research and development.
FOR FURTHER INFORMATION CONTACT: Technical and licensing information on
these inventions may be obtained by writing to: National Institute of
Standards and Technology, Office of Technology Partnerships, Attn: Mary
Clague, Building 820, Room 213, Gaithersburg, MD 20899. Information is
also available via telephone: 301-975-4188, fax 301-869-2751, or e-
mail: mary.clague@nist.gov. Any request for information should include
the NIST Docket number and title for the invention as indicated below.
SUPPLEMENTARY INFORMATION: NIST may enter into a Cooperative Research
and Development Agreement (``CRADA'') with the licensee to perform
further research on the invention for purposes of commercialization.
The inventions available for licensing are:
[NIST Docket Number: 01-022US]
Title: Miniature Frequency Standard Based nn All-Optical Excitation
and a Micromachined Containment Vessel.
Abstract: This invention is jointly owned by NIST and the
University of Colorado. A microwave frequency standard is provided
which allows for miniaturization down to length scales of order one
micron, comprising a modulated light field originating from a laser
that illuminates a collection of quantum absorbers contained in a
micro-machined cell. The frequency standard of the present invention
can be based on all-optical excitation techniques such as coherent
population trapping (CPT) and stimulated Raman scattering or on
conventional microwave-excited designs. In a CPT-based embodiment, a
photodetector detects a change in transmitted power through the cell
and that is used to stabilize an external oscillator to correspond to
the absorber's transition frequency by locking the laser modulation
frequency to the transition frequency. In a stimulated Raman scattering
(SRS) embodiment, a high-speed photodetector detects a laser field
transmitted through the cell beating with a second field originating in
the cell. Both the locked laser modulation frequency and the beat
frequency are very stable as they are referenced directly to the atomic
transition.
[NIST Docket Number: 02-002US]
Title: Low Cost Portable Refreshable Tactile Graphic Display.
Abstract: Pressure-based refreshable scanning tactile graphic
display apparatus and methods are disclosed for localized sensory
stimulation. The apparatus include a display array having stimulus
points embedded in a matrix, an energy source applied at the stimulus
points through a modulator, a control unit, and a position sensing and
feedback unit or units (such as a mouse-type device or data glove, for
example). The energy source is preferably stored and pressurized fluid
with application to selected stimulus points (pins, for example)
preferably directed at a microvalve array under the control of a
computer-based control unit.
[NIST Docket Number: 03-006US]
Title: Optical Probes for Chemical and Biochemical Detection in
Liquids.
Abstract: A class of optical sensors is provided for chemical and
biochemical detection in liquids in which the sensing element is a low-
loss optical resonator that requires or benefits from precision optical
contacting in the fabrication process. Novel resonator designs can be
created by contacting multiple components to form integral sensing
elements with low-loss mechanically strong bonds between components.
Stigmatic, weakly stigmatic and astigmatic Gaussian mode resonators and
whispering gallery mode resonators are described which can be immersed
in a liquid to detect chemical species through a change in optical
properties. High-reflectivity coated surfaces are used to permit direct
excitation of resonator modes by a propagating optical beam, while
total internal reflection surfaces provide an evanescent wave for
sampling the optical properties of the ambient medium. Resonators are
described with vicinal input and output ports, which
[[Page 16803]]
facilitate the construction of compact, distal probes where input and
output beams are introduced and accessed in close proximity.
[NIST Docket Number: 03-009US]
Title: Spectrally Tunable Solid-state Light Source.
Abstract: A radiometrically stable, spectrally tunable, solid-state
source has been developed. The radiometric outputs of individually
controlled, narrow bandwidth, solid-state sources with different
spectral distributions are combined in an integrating sphere to
approximate any desired spectral distribution. Utilizing a sufficient
number of independent solid-state source channels, the source can be
tuned to approximate the spectral distribution of any desired source
distribution. A stable reference spectroradiometer that is integrated
into the solid-state light source measures the spectral radiance and is
used to adjust the output of the individual channels.
[NIST Docket Number: 04-003US]
Title: Controlled Vesicle Self-Assembly in Continuous Two Phase
Flow Microfluidic Channels.
Abstract: It shows the formation of liposomes that encapsulate
reagents in a continuous 2-phase flow planar microfluidic network with
precision control of size, over the range of 100 nanometers to 300
nanomaters, by control of liquid flow rates. By creating a solvent-
aqueous interfacial region in a microfluidic format that is homogenous
and controllable on the length scale of a liposome, the fine control of
liposome size and polydisperisity is facilitated.
Dated: March 25, 2005.
Hratch G. Semerjian,
Acting Director.
[FR Doc. 05-6480 Filed 3-31-05; 8:45 am]
BILLING CODE 3510-13-P
