HomeMy WebLinkAboutRESPONSE - RFP - P929 RADIO COMMUNICATION STUDY FOR UTILITIES (6)RFP - Fort Collins Communication Study – March 26, 2004
Proposed Radio Communications Systems Study
Electrical Distribution System Data Acquisition
For
Fort Collins Utilities, Fort Collins, Colorado
March 26, 2004
Presented to The City of Fort Collins Utility Department
As a joint venture between
Pericle Communications, Company
And
KNS Communications Consultants
Company: Pericle Communications Company
FEIN: 84-1207933
Address: 1910 Vindicator Drive – Suite 100
Colorado Springs, CO 80919
Phone: (720) 344-9556
Fax: (303) 346-8794
Email: mieszala@pericle.com
Name M. Daniel Mieszala
Authorized Signature:
Vice President
Company: KNS Communications Consultants
FEIN: 84-1330931
Address: 1466 South Wadsworth Blvd.
Denver CO 80232-5441
Phone: (800) 847-5670 ● (303) 989-1038
Fax: (303) 989-1038
Email: suethomas@knsdenver.org
Name: L. Sue Scott-Thomas
Comment: Woman-owned Small Business
Authorized Signature:
President
RFP - Fort Collins Communication Study – March 26, 2004
Section 1.0: Executive Summary
Pericle Communications Company and KNS Communications Consultants are presenting a
response to this RFP as a joint venture. Pericle Communications in a consulting engineering
firm with expertise in RF engineering. KNS Communications Consultants provides expertise in
SCADA system design and implementation. KNS Communications represents both MDS and
Proxim equipment. Both companies are immediately available to begin this project. Estimated
completion for the preliminary feasibility study would be approximately 6 to 8 weeks.
Implementation of the pilot project, based upon equipment availability would be approximately
4 weeks for installation and 4 weeks for testing. The final report would be available within 4
weeks after the completion of the testing. The entire project timeline is estimated to be 5 to 6
months.
Qualifications and Experience.
Fort Collins Utilities has request proposals from qualified radio consultants to evaluate the
feasibility of using a license free radio frequency to perform data acquisition for the City of Fort
Collins electrical distribution system. The RF network will be used to query status and other
telemetry from various field components on the distribution system via radio master hubs located
at the seven electric substations within the city. The radio master hubs would then be connected
to an Ethernet network backbone already in use by the department. The potential number of
remote radios in the Fort Collins service area is approximately 100 units. Additional uses of the
network might include Automated Meter Reading (AMR) and mobile communications – as
determined by the initial study.
Pericle Communications Company is a consulting engineering firm specializing in wireless
communications. The company is named after Pericle Rock, a rock formation on Pikes Peak
popular with climbers. We have five employees, four are electrical engineers. Founded in 1992,
Pericle is a privately held corporation with headquarters in Colorado Springs, Colorado.
The company provides consulting engineering services to local governments and to the cellular,
PCS, broadcast, aviation, and utility industries. Our skills include the following:
• Specifying performance standards and preparing requests for proposal (RFP)
• Analyzing radio coverage using state-of-the-art computer modeling
• Collecting radio signal measurements using drive-test equipment
• Specifying, designing and managing indoor wireless projects, including IEEE 802.11
• Solving co-site radio frequency interference issues
• Predicting and measuring radio frequency power densities to prevent personnel hazards
• Designing point-to-point microwave links
• Design and fabrication of specialized measurement systems
RFP - Fort Collins Communication Study – March 26, 2004
Pericle owns a suite of software tools and test equipment to help perform these tasks. Test
equipment includes an HP 8594E Spectrum Analyzer, HP 8920A Service Monitor, HP 8656A
Signal Generator, Wandel & Goltermann EMR 300 Broadband Exposure Meter, and several
Grayson Wireless Measurement Systems with 800 MHz SMR, Cellular and PCS receivers.
In addition to our proprietary measurement software, we also own the following engineering
software: EDX Shdmap, PathLoss, MININEC Broadcast Professional, ComsitePlus, ScanStar,
Matlab, AutoCAD, and HP Bench Link.
Pericle has extensive experience in solving 800 MHz interference problems involving Nextel
and A Band cellular operators, and is, with the City of Denver, implementing a plan that may
serve as a model for the rest of the country. The principals of Pericle Communications are Jay
M Jacobsmeyer, P.E. (President), David L. McGinley (Director of Systems Engineering), Dan
Mieszala (Vice President), and Dr. Mark A Wickert, Ph.D. (Director of Wireless R&D).
Brief Resumes for Pericle Engineering Employees
Following are brief resumes for the four electrical engineers who are employees of the company.
Full resumes for Jacobsmeyer and Mieszala, the two engineers projected to work on this project,
are found in Appendix A to this proposal.
Jay M. Jacobsmeyer, P.E. (President) holds BS and MS degrees in Electrical Engineering from
Virginia Tech and Cornell University, respectively. He has over twenty years experience as a
field engineer and researcher. Before co-founding Pericle Communications Company in 1992,
Mr. Jacobsmeyer served for nine years with the United States Air Force and three years with
ENSCO, Inc. As chief technical officer, he directs all engineering work of the company. His
expertise includes indoor wireless design, co-site interference analysis, radio frequency hazard
measurements, new facility design, radio propagation prediction and measurement, ground
system design, and broadcast master antenna design. In addition to performing field work, he
has served as the principal investigator on four mobile radio research projects, one for the U.S.
Navy and three for the National Science Foundation. His technical papers have appeared in
IEEE Transactions on Communications, IEEE Journal on Selected Areas in Communications,
and in ten IEEE conference proceedings.
David L. McGinley (Director of Systems Engineering) holds a BS degree in Electrical
Engineering from the University of Maryland. He has over 12 years experience as a radio
engineer and 8 years additional experience as a radio technician. He recently retired from the
United States Air Force after 20 years of distinguished service. As an Air Force officer, he
designed numerous microwave and high frequency (HF) radio links for the Department of
Defense and other NATO military forces. At Offutt Air Force Base, he was responsible for
integrating software and hardware modifications into the $ 50 million Defense Meteorological
Satellite Program (DMSP). As director of systems engineering at Pericle Communications
RFP - Fort Collins Communication Study – March 26, 2004
Company, his duties involve planning and conducting wireless communications consulting
projects.
Dan Mieszala (Vice President) has over fifteen years experience in system design and radio
frequency engineering. Prior to joining Pericle, Mr. Mieszala was the Director of System
Performance and RF Engineering for Verizon Wireless in the Mountain Region. In this role, Dan
managed a large engineering staff and capital budgets exceeding $100 million for a wireless
network covering four states. Mr. Mieszala has held senior technical management positions for
wireless carriers in increasingly responsible roles since 1990. Prior to his work in commercial
wireless, Mr. Mieszala worked as a defense contractor on Electronic Warfare and Automatic Test
Systems. He has also contributed to several publications including: Feed the Beast a Workbook
for Effective Communications Planning (a response to the Columbine tragedy) and SANDAG
Site and Zoning Considerations for Cellular Communications Facilities.
Paul J. Naro (Technician/Programmer) has over ten years as a radio technician / field engineer
and eight years software and database development. He manages, develops and hosts numerous
high-end database-driven Internet applications in addition to providing AutoCAD and other
engineering expertise. As a lead application engineer with Infront WebWorks, he provided
database and system administration, development, and acted as a Project Leader on a number of
internet-related projects. During his six years at SAIC, he was instrumental in determining
software and hardware metrics for a wide variety of Air Force satellite systems. As a Senior
Field Engineer for Magnavox Electronics Systems Company, he was assigned to the Systems
Engineering group, in charge of designing, testing and fielding Regency Net, an advanced HF
frequency hopping, spread spectrum communications system. Mr. Naro served both in the
United States Army and Navy prior to joining Magnavox.
KNS Communications Consultants is an RF consulting firm and specializes in SCADA system
design. KNS has designed multiple SCADA systems in the a good part of the United States.
KNS also has expertise in interfacing SCADA systems into Radio Telemetry applications, and
represents and sells Microwave Data Systems Equipment, Data Radio, and Proxim Microwave
products. KNS Communications was formed in 1988 to assist clients in RF system design and
implementation. KNS Communications Consultants works in close association with
Communications Systems, Inc. which provides necessary technical expertise to install and
maintain all manner of communications systems. KNS and CSI are both woman-owned small
business and are family-held. The principals are Ken Thomas (President of CSI) , Sue Thomas,
(President of KNS) and John Thomas (Vice President of Operations). In addition there are 3
administrative personnel and 3 additional technicians on staff
The following pages detail the experience and include resumes for those who will be involved
with this project.
Brief Resumes for KNS Communications Employees
RFP - Fort Collins Communication Study – March 26, 2004
L. Sue Scott-Thomas holds a BS from Texas Tech University in Zoology with a minor in
chemistry. She has advanced coursework from University of Denver Graduate School in
Microwave System Design and Telecommunications Electronics. She also has completed 6
annual 4 day seminars in RF Engineering taught by the professional engineers at Softwright in
Aurora Colorado. She has extensive experience in design of the radio telemetry portion of
SCADA systems – and frequently is retained by Consulting Engineering Firms who design water
and wastewater treatement facilities.
Ken Thomas (John K. Thomas, Sr.) holds a BA from Sam Houston State University in
Huntsville Texas with a degree in Law Enforcement and Police Science. He worked in this field
for 8 years before retiring to begin Communications Systems, Inc. He completed advanced
coursework from University of Denver Graduate School in Microwave System Design and T1
Circuits. He also taught a 200 level communications course at Front Range Community
College, Westminister Colorado. He is an FCC Certified and NABER Certified technician, and
has extensive experience in installation and maintenance of all types of communications
systems, including base stations, repeaters, duplexers, voting receivers, microwave systems,
communications consoles, and GE EDACS trunking backbone equipment.
John K. Thomas II holds a BA from Metropolitan State College in Denver Colorado in History
and Philosophy. He also has 2 years of Greek. He has taken factory training in Microwave
System Design from Proxim (1 week school), RF System Engineering Seminar (4 days) from
SoftWright, Intellutions Basic Course (1 week), Orbacom Console Factory Training School (3
days), and ONSSI Security Software Factory training school. John has considerable expertise in
RF system design and maintenance and has designed and installed the complete wireless LAN
system for Adams County – covering multiple buildings county-wide.
Section 2.0 - Response to Scope of Service
2.1 Radio Frequency Survey
The joint venture will conduct a propagation analysis of the selected frequency EDX
SHDMAP and Softwright Terrain Analysis programs and using both 30 meter data and the
more accurage USGS NED Digital Elevations Models. 1
A sample propagation map which
was done for the US Forest Service is provided in Appendix A – The following page has is a
street level map to show the degree of detail that can be shown underneath the coverage studies
for smaller areas such as Fort Collins.
While propagation modeling is a reasonable predictor of radio coverage, no computer program
can predict all the variables associated with a real world environment. Radio testing will be
done during the pilot portion of the program to determine actual coverage. The propagation
coverage prediction will cover the 50 square miles of the City’s jurisdiction and extend past
those boundaries to determine coverage and interference past the required area. If holes in
coverage are identified based on signal strength, alternate sites will be identified using either city
buildings, electrical poles or existing towers. If none of these are available then a suitable
structure will be sought out. The existing fiber-optic backbone will be used to link the sites
RFP - Fort Collins Communication Study – March 26, 2004
back to the main facility. Wireless links may also be required to bring access points back into
the fiber backbone, if access points have to be placed at sites other than the existing electric
substations.
The propagation coverage prediction will cover the 50 square miles of the City’s jurisdiction and
extend past those boundaries to determine coverage and interference past the required area. If
holes in coverage are identified based on signal strength, alternate sites will be identified using
either city buildings, electrical poles or existing towers. If none of these are available then a
suitable structure will be sought out. No radio coverage is 100% - so one of the problems is
persistence in the mobile computer – without a persistence, the computer must reacquire when
coverage is regained. Software1 will be required to rectify this problem. Pericle and KNS will
work with the city to determine which software will best meet their needs, and the software can
be purchased if the initial study shows that the coverage is feasible and interference is acceptable
for the proposed system. NetMotion software costs $5,999.00 for the enterprise edition with 25
device licenses, and an additional $2000.00 for policy management modules. Because of the
cost of this software, it is prudent to complete the feasibility study before purchasing it.
NetMotion is not the only software available – and all options will be considered before a
purchase is made.
Section 2.2 Existing Frequency Usage
The Joint Venture will perform an Survey of existing frequencies using the FCC data base and a
professional data base search tool. Licensed emitters identified by the survey in the target
frequency band will be provided to the Utility in a spread sheet form and plotted on the City’s
AutoCad drawing. Those emitters operating under FCC guidelines for unlicensed usage will
have to be identified by a field survey.
A survey of existing frequencies in either the 900 MHz or 5.8 GHz frequency bands will be done
using tools developed by Pericle Communications. This survey will be done directly on the
AutoCad map files supplied by the city using software that has been developed by Pericle
Communications. Measurements will be taken with either a Grayson test receiver for the 900
MHz band or a Orinoco 802.11 a/b/g card for the 5.8 GHz band. The survey will focus on the
areas around the electrical substations and the Service Center specifically looking for users in
the unlicensed frequency bands of interest. If a received signal is suspected of being out of
compliance with FCC rules we will use a spectrum analyzer to store a digital image of the signal
and note the location.
As an option a drive test can be done of the whole city for the desired frequency. This option is
priced out separately in the cost spread sheet. The extended drive test would cover street in the
City’s jurisdiction and would have measurements every 300 feet on residential streets and at safe
speeds on main through fares. The extended drive test is priced as a separate option in Appendix
B.
Section 2.3 – Radio System Implementation Feasibility
Use MDS iNet for mobile coverage. IF MDS iNet is not suitable, evaluate
Proxim ORiNOCO AP4000 Access points with associated client cards.
RFP - Fort Collins Communication Study – March 26, 2004
Install MDS iNet access points at 1 or 2 selected sub-stations to demonstrate
hand-off cabapility and system access.
Choose software to manage mobile applications. Purchase and install software.
Request trial versions, if available from Vendor.
Work with city to interface AMR into system – specifications are not included
with this RFP, so details cannot be provided at this time. However this interface
should not be difficult. Programmers are available to help with interface issues if
there are any.
The number of client or remote units can be determined by the city – the cost will
depend upon the number of units chosen.
Support and a 2 day on-site training program, along with printed handbooks,
CD’s, and study manuals will be provided to City Personnel.
Consulting Engineer will provide an evaluation of the ability of the license free
radio to function in the electrical distribution environment
Complete system diagrams, USGS maps locating each access point, fiber and
system interconnect diagrams, and proposed as-builts for the system will be
provided to the City of Fort Collins.
Section 2.4 – Radios and Additional Equipment
A detailed list of the radios and additional equipment is listed under the Cost section. We have
proposed MDS iNet radios, 7/8 coaxial cable for access points, mobile antennas and installations
for the test mobile units, special Front Line Testing software for measurement of throughput and
to test RTU/PLC interface to the MDS equipment. Software to allow mobility between the
access points is approximately $8,000, and would only be purchased if the initial feasibility
study and coverage studies indicate that it is required to proceed. Optional Proxim ORiNOCO
AP4000 5.8 GHz equipment has also been listed in case the MDS iNet equipment is not feasible.
Section 2.5 – Training and Support
KNS will provide training and classroom time for use of either the MDS or Proxim equipment.
Pericle will provide software support required for migration from existing system to the new
system.
Section 2.6 – Additional Work
Additional work which outside of the scope of this project will be performed at the hourly rates
stated in the cost section, or at mutually agreed upon negotiated rates.
Section 3 Proposal Response Requirements:
Item 1 – Cover Letter – Included
Item 2 – List of Staff – Included under tabs 4 and 6
RFP - Fort Collins Communication Study – March 26, 2004
Item 3 – Description of how Solution will be implemented – Included in text above.
Item 4. Description of how the 50 square miles that comprises the City’s jurisdiction will be
within the boundaries of the proposed solution.
Substations will be identified within the City’s jurisdiction that will provide coverage for the
selected frequency band. Radio propagation will modeled from these substations to identify
coverage. If coverage is inadequate, alternate sites will be identified with the priority placed on
transmission line poles or other municipal properties that would provide the needed height for
propagation. Links back to the substations on the fiber ring will then be provided with unlicensed
microwave of 802.11 point to point solutions.
Item 5. Detailed information of RF coverage utilizing key electrical substations located on a
fiber ring.
Propagation models will be run on a minimum of 30 meter data from key electrical substations
on the fiber ring to be identified by Fort Collins Utilities. The Joint Venture will use
SoftWright’s TAP program to predict coverage from these substations and will use the
Bullington Model for the study. Once the initial coverage studies are done, then radio testing
to verify coverage model assumptions, and the model will be adjusted as necessary to match the
testing which was done.
The RFP appears to be written around the MDS iNet solution. This solution has improved
dramatically over the last year, and may be an excellent choice. The concerns that must be
addressed are those of interference from the 900 MHz non-licensed band where the iNet
operates. If this band is too congested, other alternatives are the 2 GHz and 5 GHz unlicensed
bands.
It must be understood that there can be no guarantees against future interference in any of the the
unlicensed spread spectrum bands (900 Mhz, 2 GHZ, and 5 GHz spectrum ). Proper system
design will certainly mitigate current and future interference issues – and quality robust
equipment will perform well – but the nature of unlicensed spectrum leaves no recourse against
other users when there is interference.
Coverage Maps will be overlaid on one map to show coverage. Throughput measurements can
be made to determine system capability and the number of units which can be supported.
Once the final system design has been completed, the Joint Venture will work with the city to set
up a Pilot test program to determine how test units can roam and what coverage can be
accomplished while mobile.
Item 5 - Proposed Implementation Solutions:
This was discussed in detail under 2.3 above. We would propose an initial implementation of the
MDS iNet radio. If it does not work, an alternative solution would be the implementation of the
Proxim AP4000 access points with A/B/G cards. Testing and implementation would be the
same for both systems.
RFP - Fort Collins Communication Study – March 26, 2004
Item 6 – Detailed Proposal of Suggested Radio Locations –
Use existing substations and additional locations as required in the study.
Item 7 – Description of Phased Approach
Install pilot system to include
o Two Access Points with contiguous coverage areas
o 10 Remote Clients
o Software to manage roaming
Conduct tests to determine the following
o Ability to roam between coverage areas of the two access points
o Ability to upload and download to the server through the system
o Ability to access intra-net
o Ability for multiple users to access system at the same time
o Measure bandwidth and throughput
o Determine system reliability and ability to deal with interference which may
occur within the same frequency band.
o Use Front-line Test equipment to measure interface between the RTU and the
mobile data system – this will look at transmitted hex codes, will measure through
put and bandwidth performance of the system.
o Prepare a final report documenting coverage, bandwidth capabilities, multiple
user capabilities, throughput for final presentation to the city.
Item 8 – Price Proposed Services
Included in the cost section
Item 9 – Identification of Work which is subcontracted
All work will be a joint venture – tasks are identified in the cost section
Item 10 – Proposed Schedule
This is discussed in the section 3.2.
Item 11 – List of 3 References
Denver Water Board – Jerry Vahling (303) 628-6829
Castle Rock Water Utilities – Tom Abbott (720) 766-6051
East Cherry Creek Valley Water – John Robinson, PE – CDM Engineering – (303) 298-1311
Anthony Morroni, Morroni Engineering (now Corolla Engineering) (303) 980-8260
Pericle Reference phone numbers included with client list.
Item 12 – Other Information
This booklet contains samples of output which has been done, detailed resumes, client lists,
references and equipment specifications.
RFP - Fort Collins Communication Study – March 26, 2004
Section 3.2 – Project Schedule
Both companies are immediately available to begin this project. Estimated completion for the
preliminary feasibility study would be approximately 6 to 8 weeks. Implementation of the pilot
project, based upon equipment availability would be approximately 4 weeks for installation and
4 weeks for testing. The final report would be available within 4 weeks after the completion of
the testing. The entire project timeline is estimated to be 5 to 6 months.
Comments:
The system requested by the city is a mission-critical system. For this reason it is extremely
important that the city is able to evaluate various options to accomplish this task, and to weigh
the pros and cons of each option.
KNS Communications Consultants has been providing services since 1988, and our sister
company Communications Systems, Inc. has been servicing and maintaining RF equipment
since July of 1979. KNS has successfully designed many radio telemetry and SCADA systems
nationwide as is detailed in the company information which has been provided.
Pericle Communications is a consulting engineering firm, and provides the expertise of 3
degreed engineers and one professional engineer. Pericle has been providing services since 1992
and has considerable experience in major complex RF engineering projects nationwide. Pericle
has often been hired to solve major interference problems and deal with propagation issues.
Because of the nature of the project years in business and experience should be a major
consideration in the choice of vendors. The Joint Venture offers a combination of companies
with over 37 years experience in the industry, with together have experience in SCADA
System Design, technical installation and maintenance, troubleshooting of integration problems
with a multiple number of RTU’s and PLC, and engineering experience in RF propagation and
interference issues.
We would request the opportunity to interview with the city prior to the final award of this RFP.