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Class Schedule Listing

 

Fall 2014
Feb 26, 2015
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Sections Found
Analog Circuit Design - 12431 - EECE 501 - 90
Basic analog devices and circuits, bias point and small signal analysis. Frequency response and transient characteristics of analog circuits. Feedback and stability. CMOS integrated analog circuit designs and applications. Prerequisites: EECE 315.
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate, Undergraduate

Main Campus
Lecture Schedule Type
Traditional Instructional Method
3.000 Credits
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Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class 1:10 pm - 2:10 pm MWF Student Services Wing 321 Sep 02, 2014 - Dec 12, 2014 Lecture Vladimir V Nikulin (P)


Electric Power Systems - 24325 - EECE 502 - 01
ELECTRIC POWER SYSTEMS This course will cover the basics of electric power systems including developments related to the more widespread use of intermittent renewal energy sources. Topics in the course will include a review of fundamental circuit principles related to power system networks, principles of magnetic theory related to power systems, transformers, synchronous generators, AC and DC transmission lines, power flow, stability and control in interconnected power systems, power fault analysis, and other general characteristics of electric power systems. Prerequisites: Course in electric circuits and a course in electromagnetic.
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate, Undergraduate

Main Campus
Discussion Schedule Type
Traditional Instructional Method
3.000 Credits
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Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class 2:50 pm - 4:15 pm TR University Union 202 Sep 02, 2014 - Dec 12, 2014 Discussion Ning Zhou (P)


Power Electronics - 12428 - EECE 504 - 01
Electronic processing of electrical energy. Overview of power electronics devices such as DMOSFET, IGBT and Thyristor. Power supply circuits from AC or DC sources as used in computers, inverters and variable-speed motor drives. Analytical and numerical techniques for simulation. Technical elective. Prerequisites: EECE 301 and EECE 315.
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate, Undergraduate

Main Campus
Discussion Schedule Type
Traditional Instructional Method
3.000 Credits
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Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class 6:00 pm - 7:25 pm TR Fine Arts 258 Sep 02, 2014 - Dec 12, 2014 Discussion Alok C Rastogi (P)


Biosensors and Bioelectronics - 25702 - EECE 505X - 01
This course is meant to provide an overview of the field of bioelectronics with a focus on the development of electrical biosensors. It covers the principles, technologies, methods, and applications of biosensors and bioelectronics. The objective of this course is to link engineering principles to bioelectrical systems. The course will familiarize students with chemical sensors, bio-analytical systems and biosensors with a special emphasis on different transduction technologies, biorecognition layers, biomolecular detection assays, and the coupling of the biorecognition elements on the transduction system to obtain a functional bio-analytical device. Prerequisites: EECE 315 and EECE 332.
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate, Undergraduate

Main Campus
Discussion Schedule Type
Traditional Instructional Method
3.000 Credits
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Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class 11:40 am - 1:05 pm TR Lecture Hall 011 Sep 02, 2014 - Dec 12, 2014 Discussion Seokheun Choi (P)


Mathematical Methods In EE - 12858 - EECE 506 - 01
Selected topics in the advanced engineering mathematics, with special focus on their electrical engineering applications. Topics include ordinary and partial differential equations, Laplace transform, Fourier transform, linear algebra, matrix theory, numerical methods, complex analysis, optimization, probability and statistics. Prerequisite: calculus and differential equations.
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate, Undergraduate

Main Campus
Discussion Schedule Type
Traditional Instructional Method
3.000 Credits
View Textbooks
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Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class 1:15 pm - 2:40 pm TR Engineering Building J15 Sep 02, 2014 - Dec 12, 2014 Discussion Ziang Zhang (P), David J Klotzkin


Mathematical Methods In EE - 26009 - EECE 506 - 02
Selected topics in the advanced engineering mathematics, with special focus on their electrical engineering applications. Topics include ordinary and partial differential equations, Laplace transform, Fourier transform, linear algebra, matrix theory, numerical methods, complex analysis, optimization, probability and statistics. Prerequisite: calculus and differential equations.
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate, Undergraduate

Main Campus
Discussion Schedule Type
Traditional Instructional Method
3.000 Credits
View Textbooks
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Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class 1:15 pm - 2:40 pm TR Engineering Building J23 Sep 02, 2014 - Dec 12, 2014 Discussion Ziang Zhang (P), David J Klotzkin


Mathematical Methods In EE - 20871 - EECE 506 - 20
MATHEMATICAL METHODS IN ELECTRICAL ENGINEERING Selected topics in the advanced engineering mathematics, with special focus on their electrical engineering applications. Topics include ordinary and partial differential equations, Laplace transform, Fourier transform, linear algebra, matrix theory, numerical methods, complex analysis, optimization, probability and statistics. Prerequisites: calculus and differential equations. Please contact Janice Kinzer, Information Specialist, at 607-777-4965 for registration. There is a $200.00 fee for distance learning courses.
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate, Undergraduate

Main Campus
Discussion Schedule Type
Dist Learning Taught by BU Fac Instructional Method
3.000 Credits
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Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class TBA   Distance Learning LEARN Sep 02, 2014 - Dec 12, 2014 Discussion Ziang Zhang (P), David J Klotzkin


Mathematical Methods In COE - 25854 - EECE 507 - 01
This course provides fundamental computer engineering knowledge for the design and analysis of digital systems. Includes applications of Discrete Math; Groups; Group Codes; Semi-groups; Synthesis of Networks; Reliable Design and Fault Diagnosis; Graphs; and Finite State Machines. Prerequisites: EECE 351 or equivalent and MATH 314 or equivalent.
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate, Undergraduate

Main Campus
Discussion Schedule Type
Traditional Instructional Method
3.000 Credits
View Textbooks
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Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class 9:40 am - 10:40 am MWF Science 2 144 Sep 02, 2014 - Dec 12, 2014 Discussion Linke Guo (P), Douglas H Summerville


Control Systems II - 12470 - EECE 510 - 01
Conventional and state variable techniques for the analysis and design of digital and analog control systems. Z-transform. Sampled data systems. Discrete state variable. Numerical simulation and computer-aided design of control systems. Lecture portion meets with EECE 462. Prerequisites: EECE 361 or equivalent.
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate, Undergraduate

Main Campus
Discussion Schedule Type
Traditional Instructional Method
3.000 Credits
View Textbooks
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Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class 4:25 pm - 5:50 pm TR Engineering Building R15 Sep 02, 2014 - Dec 12, 2014 Discussion Victor A Skormin (P)


Digital Signal Processing I - 22227 - EECE 520 - 01
Covers the general area of discrete-time signals and the analysis and design of discrete time systems. Topics include time domain analysis, solutions of difference equations, Z transform analysis, sampling of continuous-time signals, discrete Fourier transforms, Fast Fourier Transforms, and spectral analysis. Processing of discrete-time signals using the DFT and FFT. Design and implementation of discrete-time filters. Extensive use of software simulations in a high-level language such as Matlab. Final project required. Prerequisite: EECE 301.
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate, Undergraduate

Main Campus
Discussion Schedule Type
Traditional Instructional Method
3.000 Credits
View Textbooks
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Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class 8:30 am - 9:55 am TR University Union 202 Sep 02, 2014 - Dec 12, 2014 Discussion Matthias Kirchner (P), Stephen Andrew Zahorian


Advanced Semiconductor Lasers - 24344 - EECE 532 - 01
ADVANCED SEMICONDUCTOR LASERS Physics, device structure, and operation of semiconductor lasers. Band structure in solids, optical processes in semiconductors, p-n junctions, and quasi-Fermi levels; rate equation model for semiconductor lasers, static and dynamic characteristics; characteristics of distributed feedback, Bragg reflector, vertical cavity and Fabry-Perot lasers. Prerequisite: EECE 332 Semiconductor Devices.
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate, Undergraduate

Main Campus
Discussion Schedule Type
Traditional Instructional Method
3.000 Credits
View Textbooks
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Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class 2:50 pm - 4:15 pm TR Lecture Hall 011 Sep 02, 2014 - Dec 12, 2014 Discussion David J Klotzkin (P)


Digital Communications - 12849 - EECE 545 - 01
Transmission of information in digital form; coding; packets; error detection, correction; carriers; multi-path and inter-symbol interference; spread spectrum. Prerequisite: EECE 377 or equivalent.
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate, Undergraduate

Main Campus
Discussion Schedule Type
Traditional Instructional Method
3.000 Credits
View Textbooks
View Catalog Entry

Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class 10:05 am - 11:30 am TR Science 2 140 Sep 02, 2014 - Dec 12, 2014 Discussion Xiaohua Edward Li (P)


Free-Space Laser Communication - 24330 - EECE 549 - 01
FREE-SPACE LASER COMMUNICATIONS Introduction to the phenomena related to optical communications. Laser crosslinks, optomechanical, laser and detector technologies, acquisition and tracking. System configuration and design. Prerequisite: familiarity with electromagnetic theory, basic concepts of optics and electronics, elementary differential equations and fundamental principles of communications theory. fall, every other
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate, Undergraduate

Main Campus
Discussion Schedule Type
Traditional Instructional Method
3.000 Credits
View Textbooks
View Catalog Entry

Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class 10:50 am - 12:15 pm MW Engineering Building J23 Sep 02, 2014 - Dec 12, 2014 Discussion Vladimir V Nikulin (P)


Free-Space Laser Communication - 24332 - EECE 549 - 20
FREE-SPACE LASER COMMUNICATIONS Introduction to the phenomena related to optical communications. Laser crosslinks, optomechanical, laser and detector technologies, acquisition and tracking. System configuration and design. Prerequisite: familiarity with electromagnetic theory, basic concepts of optics and electronics, elementary differential equations and fundamental principles of communications theory. fall, every other Please contact Janice Kinzer, Information Specialist, at 607-777-4965 for registration. There is a $200.00 fee for distance learning courses.
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate, Undergraduate

Main Campus
Discussion Schedule Type
Dist Learning Taught by BU Fac Instructional Method
3.000 Credits
View Textbooks
View Catalog Entry

Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class TBA   Distance Learning LEARN Sep 02, 2014 - Dec 12, 2014 Discussion Vladimir V Nikulin (P)


Computer Design - 12866 - EECE 552 - 01
Computer architectures, virtual memory organization, input-output, microprogramming, multiprocessor systems, memory hierarchies, pipelined architecture, RISC machines, fault-tolerant machines. Prerequisites: EECE 352 or equivalent. If you are in need of this course via distance learning, please contact Professor Carpenter at carpente@binghamton.edu for instructor approval. If approved, you will be registered into EECE 552 section 02 by the ECE department staff.
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate, Undergraduate

Main Campus
Discussion Schedule Type
Traditional Instructional Method
3.000 Credits
View Textbooks
View Catalog Entry

Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class 10:05 am - 11:30 am TR Engineering Building J15 Sep 02, 2014 - Dec 12, 2014 Discussion Aaron P. Carpenter (P)


Computer Design - 12871 - EECE 552 - 20
Computer architectures, virtual memory organization, input-output, microprogramming, multiprocessor systems, memory hierarchies, pipelined architecture, RISC machines, fault-tolerant machines. Prerequisites: EECE 352 or equivalent. Please contact Janice Kinzer, Information Specialist, at 607-777-4965 for registration. There is a $200.00 fee for distance learning courses.
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate, Undergraduate

Main Campus
Discussion Schedule Type
Dist Learning Taught by BU Fac Instructional Method
3.000 Credits
View Textbooks
View Catalog Entry

Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class TBA   Distance Learning LEARN Sep 02, 2014 - Dec 12, 2014 Discussion Aaron P. Carpenter (P)


Computer Network Architectures - 12876 - EECE 553 - 01
Starting with a brief review of some basics of networking, we will discuss the OSI seven-layer model and the Internet model, in particular the TCP/IP architecture. Course focuses are architecture and principles of design and analysis of broadband computer networks, which is capable of supporting multimedia telecommunications services over local and wide areas. A characterization and discussion of the evolution of the Internet and the new patterns of demands and traffic types will be presented, along with the impact of these demands on next generation network architecture and protocol design. Emphasis will be given on network components and design issues. Prerequisites: Basic knowledge of Probabilistic & Statistics.
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate, Undergraduate

Main Campus
Discussion Schedule Type
Traditional Instructional Method
3.000 Credits
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Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class 4:25 pm - 5:50 pm TR Science 1 140 Sep 02, 2014 - Dec 12, 2014 Discussion Yu Chen (P)


Cryptography & Info Security - 12402 - EECE 560 - 01
Topics include: symmetric cryptography, information theory and perfect secrecy, public-key cryptography, cryptanalysis, key exchange protocols, zero-knowledge proofs and secret-sharing schemes, steganography, public policy. Prerequisite: Familiarity with a computer programming language is necessary to complete assignments.
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate, Undergraduate

Main Campus
Discussion Schedule Type
Traditional Instructional Method
3.000 Credits
View Textbooks
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Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class 3:30 pm - 4:30 pm MWF Fine Arts 258 Sep 02, 2014 - Dec 12, 2014 Discussion Scott A Craver (P)


Fundamentals Of Steganography - 22234 - EECE 562 - 01
An introduction to the modern field of covert communication using digital media. General principles of covert communications in digital images and detection of hidden data in digital media files (statistical tests, signal estimation). Steganographic security, capacity and detectability. Universal blind steganayzers based on machine learning. Forensic steganalysis. Prerequisites: Knowledge of MATLAB and basics of signal processing.
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate, Undergraduate

Main Campus
Discussion Schedule Type
Traditional Instructional Method
3.000 Credits
View Textbooks
View Catalog Entry

Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class 1:15 pm - 2:40 pm TR ITC Engr & Sci Bldg 2344 Sep 02, 2014 - Dec 12, 2014 Discussion Jessica J Fridrich (P)


CMOS VLSI Circuits & Arch. - 12464 - EECE 574 - 01
The MOS transistor, circuit characterization and performance estimation. CMOS logic and structured design: electrical design of logic circuits, clocking strategies and design rules. CMOS systems and RISC architectures. Prerequisites: EECE 351 or equivalent.
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate, Undergraduate

Main Campus
Discussion Schedule Type
Traditional Instructional Method
3.000 Credits
View Textbooks
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Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class 2:50 pm - 4:15 pm MW Science Library 302 Sep 02, 2014 - Dec 12, 2014 Discussion Zhanpeng Jin (P)


Network Computer Security - 26551 - EECE 580F - A01
This course will cover some key topics in networking security and host level security. It will begin with an introduction to networking. Students will get hands on experience with enterprise level networking equipment (switches, routers, firewalls, etc.). It will be followed by introduction to network level attacks and defense mechanisms. Students will mount attacks and defend against them using a variety of software tools. The second part of the class will focus on wireless networking security. Students will configure, attack, and defend wireless networks. The third part of the calls will involve host level security. Students will attack and defend common network services such as DNS, Web, SQL, and FTP. In the end students will take part in attacking and securing industrial control systems (a.k.a. SCADA systems).
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate, Undergraduate

Main Campus
Discussion Schedule Type
Traditional Instructional Method
3.000 Credits
View Textbooks
View Catalog Entry

Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class 10:50 am - 11:50 am M Science Library 310 Sep 02, 2014 - Dec 12, 2014 Discussion Andrey Dolgikh (P)E-mail


Network Computer Security - 26552 - EECE 580F - A50
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate, Undergraduate

Main Campus
Activity Schedule Type
Traditional Instructional Method
0.000 Credits
View Textbooks
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Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class 10:05 am - 1:05 pm T ITC Engr & Sci Bldg 2203 Sep 02, 2014 - Dec 12, 2014 Activity Andrey Dolgikh (P)E-mail


Network Computer Security - 26553 - EECE 580F - A51
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate, Undergraduate

Main Campus
Activity Schedule Type
Traditional Instructional Method
0.000 Credits
View Textbooks
View Catalog Entry

Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class 10:05 am - 1:05 pm R ITC Engr & Sci Bldg 2203 Sep 02, 2014 - Dec 12, 2014 Activity Andrey Dolgikh (P)E-mail


Special Topics - 26558 - EECE 580G - 01
In this course, we focus on the introduction of game theory and its applications in wireless communications and wireless networks. Fundamentals of game theory will be discussed, including non-cooperative games, cooperative games, evolutionary games, and auction theories. After a brief overview of wireless communications and wireless networks, the applications of game theories are followed, with topics in resource allocation, cooperative communication, and spectrum competition of cognitive radios. In the final project, 3~4-person teams will be formed and work on the applications of game theories. Prerequisites: EECE377
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate

Main Campus
Discussion Schedule Type
Traditional Instructional Method
3.000 Credits
View Textbooks
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Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class 6:00 pm - 7:25 pm TR Student Services Wing 323 Sep 02, 2014 - Dec 12, 2014 Discussion Xiaohua Edward Li (P)


Tech. Dev. Curriculum II - 16231 - EECE 593 - 01
This course is a 16-week in-house course taught at BAE Systems for students enrolled in the BAE ELDP program only and devoted to challenging students with problems very similar to those frequently facing Electronic Systems engineers. Coursework includes a technical project requiring the application of systems, software, and hardware engineering skills.
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate, Undergraduate

Main Campus
Discussion Schedule Type
Traditional Instructional Method
3.000 Credits
View Textbooks
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Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class TBA   Off Campus Bldg CAMP Sep 02, 2014 - Dec 12, 2014 Discussion Ellen E Tilden (P)


Convex Optimization for EE&CoE - 21508 - EECE 680B - 01
Basics of convex analysis. linear, quadratic, and semi-definite programs, duality theory. Interior-point, cutting-plane, and ellipsoid methods. Matlab-based tool for convex optimization. Applications of convex optimization to fields in electrical and computer engineering.
Associated Term: Fall 2014
Registration Dates: Mar 27, 2014 to Sep 12, 2014
Levels: Graduate

Main Campus
Discussion Schedule Type
Traditional Instructional Method
3.000 Credits
View Textbooks
View Catalog Entry

Scheduled Meeting Times
Type Time Days Where Date Range Schedule Type Instructors
Class 1:15 pm - 2:40 pm TR ITC Engr & Sci Bldg 2324 Sep 02, 2014 - Dec 12, 2014 Discussion N Eva Wu (P)


All results displayed: 26 courses total

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