Milestone-Proposal:URUCIB: Difference between revisions

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|a11=Yes
|a11=Yes
|a3=1985 -1988
|a3=1985 -1988
|a1=URUCIB – Real-time Information for the Presidency of the Republic - 1988
|a1=URUguay CIBernético Real-time Information System, 1986-1988
|plaque citation=URUguay CIBernético was a pioneering Executive Information System designed and implemented for the Presidency of Uruguay, later exported to other countries. The system created a data network and incorporated advanced cybernetic modeling and statistical techniques to detect incipient instabilities in the country’s situation. It had an intuitive graphical human interface allowing decision making based on the entire information presented daily at the Management Center in the President´s office.
|plaque citation=URUguay CIBernético was a pioneering Executive Information System designed and implemented for the Presidency of Uruguay, and later adopted by other countries in the region. The system used a data network and advanced cybernetic modeling and statistical techniques to monitor key indicators of national well-being. Its intuitive graphical user interface offered government leaders real-time updates to inform decision-making and anticipate potential problems.
|a2b=Uruguay
|a2b=Uruguay
|IEEE units paying={{IEEE Organizational Unit Paying
|IEEE units paying={{IEEE Organizational Unit Paying
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|Proposer email=j.miguez@ieee.org
|Proposer email=j.miguez@ieee.org
}}
}}
|a2a=ASSE: Avda. Dr. Luis A. de Herrrera 3626, Montevideo, Uruguay  coordinates 34°52'11.7"S 56°09'57.6"W   A second plaque will be placed at the present site of the Presidency, Plaza Independencia  710 .-
|a2a=ASSE: Avda. Dr. Luis A. de Herrrera 3626, Montevideo, Uruguay  coordinates 34°52'11.7"S 56°09'57.6"W             A second plaque will be placed at the present site of the Presidency, Plaza Independencia  710 .-
|a7=It was the site of the Presidency; now is the Administration of the Public Health System
|a7=It was the site of the Presidency; now is the Administration of the Public Health System, ASSE.  A second  plaque will be placed at the new building of the Presidency.
|a8=yes
|a8=yes
|mounting details=It’s  big government building where the project was conceived, installed and operated for a few years.Now the Presidency has moved to another location. The plaque will be placed in the public entrance hall, freely open to the public during extended  business hours [eventually COVID protection measures  and security checks ]If the  Committee so wishes, we can also arrange a plinth in the exterior, near the entrance.
|a9=As said, as a big govt. building the site is secure. the main Entrance hall is open to everyone
|a10=Government of Uruguay
|a10=Government of Uruguay
|a4=Using cutting edge principles form cybernetics and starting from scratch, an Executive Information System was designed, built and put into service for the Presidency of the Republica Oriental del Uruguay. With the only precedent being a frustrated one in Chile couple of years before, this concept of on-line information for decision making was truly revolutionary.
|a4=Starting from scratch, an Executive Information System for the office of the President of the Republic of Uruguay was designed, built, and put into service resorting to cybernetics’ cutting edge principles. The concept of having on-line information available for decision making was truly revolutionary.  There had only been a frustrated previous case in Chile, twelve years before. 
In 1985 there was no Internet, there were no cell phones -it was the pre-history of the computer and information revolution. In Uruguay, the most important utilities and services are public, belong to the State and ultimately report to the presidency. Information and key indicatives from the government units was mostly only available through delayed yearly reports. From the private sector the situation was the same -or worse. After years of dictatorship, the idea was to give to the Executive Power, daily, almost real-time information of key variables to evaluate the situation of the country, incorporating early-detection of possible problems and making rational decisions possible.  


URUCIB intended, with a visionary attitude, to give this new democratic Government, a state-of-the-art tool. Man-machine interaction would be able to extend the senses of government to the places where the most relevant information about present-day state of the country was available. The challenge was to access the sources of this information, from different public and private origins, transmit it, process it, filter it through statistical programs and present it easily and understandably through numbers and graphics on computer screens installed in a Management Center that would be placed right in the Office of the President. It would be navigated with a remote control simpler than that of a television set. With this information, the government could monitor the country's progress, anticipate possible problems and simulate possible scenarios. Today all this may seem obvious, but then it was an absolute novelty, and as with any innovation whose theoretical and technical assumptions are unknown to ordinary mortals, looked like an act of magic. President Dr. Julio María Sanguinetti gave his enthusiastic support and project leader Ing Victor Ganon and his dedicated team were instrumental in the design and successful implementation of the System.
In 1985 there was neither Internet nor mobile phones -it was prior to the computer and information revolution. In Uruguay, power, water, oil and telecommunications are provided by state companies, and report to the president. Most information and key indicators of government units were only available on delayed yearly reports. In the private sector the situation was similar - or worse. After years of dictatorship, the Executive Branch needed  daily, almost real-time information of key variables, to evaluate the situation of the country, provide early-detection of possible problems, and make well informed, correct decisions. 


URUCIB’s visionary aim was to provide this new democratic government, with a state-of-the-art tool. Man-machine interaction would allow the government to reach the most relevant and current information of the country . 
The challenge was to have access to  public and private sources of information to be transmitted, processed, and filtered with statistical programs. Finally, a user-friendly presentation was created: figures and graphics appeared on computer screens set up in a Management Centre in the President’s office. These screens were operated with a remote-control which was easier to use than that of a television set. This information allowed the government to monitor the country's progress, anticipate potential problems, and simulate possible scenarios. 


The interest aroused by URUCIB in Latin America caused the system to be exported to the Argentine Republic and the Republic of Nicaragua. In Argentina it was installed in the Government of the Province of Buenos Aires (Governor Antonio Cafiero) and in the Presidency of the Republic (President Carlos Menem). In Nicaragua it was installed in the Presidency of the Republic (President Violeta Chamorro)
It seems obvious, nowadays. But back then, it was a great novelty whose theoretical and technical assumptions  were absolutely  incomprehensible to ordinary people, it was like something magical, out of this world.  
|a6=There were numerous obstacles that URUCIB had to overcome. To begin with, at that time, 1985-88, there was no data network in Uruguay that allowed the transmission of the information originated in the Agencies  to the Presidency. A private data network was therefore created, using the telex network infrastructure, which was 100% digital, dessigned and built in the country.
The United Nations program for development (PNUD) helped financially. The distinguished British cybernetics expert  Prof. Stafford Beer was hired as an advisor; the President of the Republic, Dr. Julio María Sanguinetti gave his enthusiastic support and project leader Eng. Victor Ganón and his devoted team were instrumental in making this trailblazing design, and successfully implementing the System. 


Secondly, it was necessary to develop all the programming to process and filter the information  received (circa 1200 time series) and to detect incipient instabilities in it. Based on the work of Harrison and Steven, a Multiprocess Dynamic Linear Growth Model was used. The kernel that made up for the statistical model was enlarged with a Decision Scheme allowing to detect changes automatically, without inspecting the probability values resulting from the model´s application.
The interest aroused by URUCIB in Latin America resulted in  the system being exported to the Argentine Republic and the Republic of Nicaragua, where it was used for many years. In Argentina it was installed in the Government of the Province of Buenos Aires (Governor Antonio Cafiero) and in the National President’s office  (President Carlos Menem). In Nicaragua it was installed in the National President’s office (President Violeta Chamorro). In Uruguay, systems were configured for Government Agencies to be aligned with the System and it continued to be used for many years, notably by the BPS (Social Security Bank). 
|a6=URUCIB had to overcome a myriad problems. To begin with, in 1985 there was no data network in Uruguay to transmit information from the different agencies to the President’s office. Therefore, a private data network -100% digital was designed and built in the country, resorting to telex network infrastructure.  


Finally, a new interactive environment for group decision-making called Management Center had to be created. Although Windows was not available at that time, and MS-DOS had to be used, the whole System used a graphical representation of quantified factswritten in C language, and placed an emphasis on ergonomics and on the facility of use and learning of the man-machine interface.
Additionally, it was necessary to develop programs to process and filter the information received (circa 1200 time series), and to detect incipient instabilities. To this end, the team resorted to  the work of Harrison and Steven, a Multiprocessing Dynamic Linear Growth Model . The kernel of the statistical model was enlarged with a Decision Scheme, to allow automatic change detection. Thus, there was no need to study individual probability values in the model´s application. 


Given the multi and interdisciplinary character of the project, there were frictions originated by the different approaches to reality on the part of persons coming from various disciplines. This was solved to a great extent through mechanisms for the management of the project.
Finally, a Management Centre was created: a new interactive environment for group decision-making. Although Windows was not available at that time, with MS-DO the whole System had  graphical representations of quantified facts, written in C language. The man-machine interface was designed bearing in mind ergonomics and that it were easy to use and learn. 


Last but not least, the project suffered from a confrontation with the bureaucratic structures of the agencies that provided the information to the Presidency. Eight months before the inauguration of the system, resistance to URUCIB at the top management levels of state agencies peaked. Discarding an authoritarian approach, dialogue was chosen and each party expressed their views, so that, by way of synthesis, discrepancies, fears, uncertainties and doubts could be elicited, and the relationship between URUCIB and the agencies that provided information to the system was established on very solid and legitimate bases vis-à-vis the political level.
Given the multi and interdisciplinary character of the project, everything was not smooth sailing.  Team members had different approaches to reality, so there were disagreements at times. These were overcome, to a great extent, by means of project management procedures.  The project also caused confrontation with the bureaucratic structures of the agencies that provided information to the President. Eight months before the inauguration of the system, the resistance to URUCIB peaked among top managers of state agencies. An authoritarian approach was not an option, so conversations were held where parties expressed their views, discrepancies, fears, uncertainties and doubts. Ultimately, the relationship between URUCIB and these agencies was established on a very solid, legitimate and productive basis.
|a5=1.- Organizational Model
|a5=1.- Organizational Model  
Prof. Stafford Beer´s cybernetic organizational model called Viable System Model (VSM) was selected for the project. This model turned out to be a powerful tool for the description and diagnosis of most of the agencies considered.
Prof. Stafford Beer´s cybernetic organizational model called Viable System Model (VSM) was selected for the project. This model was a powerful tool to describe and make a diagnosis of most agencies.  


2.- Evolutionary prototype

2.- Evolutionary prototype
This was a fundamental feature and a permanent guiding principle during the life of the project. The decision was taken to achieve concrete results in defined periods of time, postponing some desired refinements for future versions.
This was a fundamental feature and permanent guiding principle during the life of the project. It was consciously decided to achieve goals and meet deadlines, rather than working on some desired refinements for future versions.

3.- Usage of Statistics
Following a suggestion made by Prof. Beer, Harrison and Stevens´s linear growth model was used to design an early warning System. It monitors the behaviour of time series and their trends. This feature is seldom found in today’s business analytics systems.
The Statistical treatment of information also provided:
* Early detection of change in times series structure 
* Time series transformation.
* Automatic information storage and processing.
* Utilities for the description and analysis of time series.  


3.- Usage of Statistics
Following a suggestion from Prof. Beer, Harrison and Stevens´s linear growth model was used in the design of an early warning System. It monitors the behavior  of the time series and their trends. This feature is seldom found in todays business analytics systems.
The Statistical treatment of information also provided:
Early detection of change in the structure of the times series.
Time series transformation facilities.
Automatic information storage and processing.
Facilities for the description and analysis of time series.


4.- Some Operational components of URUCIB specially designed ant built for the project:

4.- Some Operational components of URUCIB specially designed and built for the project were:  
A data communications network through which the Presidency was able to receive, in real time and automatically, the information originated in the agencies.
A data communications network where agencies’ information automatically reached the President’s office in real time.  
A data base of time series, of different periodicity and with qualitative information, for a multiuser environment.
A time series data base, with different time periods, and qualitative information, for a multiuser environment.
A set of programs providing the statistical processing of the information received in real time, generating warnings of incipient changes, called News.
A set of programs for information statistical processing in real time, generating warnings of incipient changes, called News.
A new interactive environment for group decision-making called Management Centre. It was possible to visualize chronological data in graphic form together with contextual information.
A new interactive environment for group decision-making called Management Centre. It was possible to visualize chronological data in graphic form together with contextual information.
 

5.- Project team
The entire design and development of URUCIB was made by a team of Uruguayan professionals (economists, accountants, engineers, programmers, statisticians), led by Eng. Victor Ganón, with advice from English cybernetics Expert Prof. Stafford Beer.
|references=[[media:urucib_oxford.pdf  ]]
 
[[media:URUCIB press.pdf]]
 
[[media:IDRC_CRDI_CIID_June_1989_Manuscript_Report_235e.pdf]]
 
[[media:ANALES_IEEE_1o_Seminario_Estado_de_la_Informatica_en_el_Uruguay_(2).pdf]]
 
[[media:URUCIB Registro derechos de autor.gif]]
|supporting materials=[[media:Viable_system_Model.pdf]]


5.- Project team 
The entire design and development of URUCIB was carried out by a team of Uruguayan professionals (economists, accountants, engineers, programmers, statisticians), led by Ing. Victor Ganón, with the advice of the english cybernetician Prof. Stafford Beer.
|references=media:urucib_oxford.pdf 
media:urucib_press.pdf 
media:IDRC_CRDI_CIID_June_1989_Manuscript_Report_235e.pdf 
media:ANALES_IEEE_1o_Seminario_Estado_de_la_Informatica_en_el_Uruguay_(2).pdf 
media:URUCIB Registro derechos de autor.gif
|supporting materials=media:Viable_system_Model.pdf
https://www.elobservador.com.uy/nota/un-viaje-a-la-tecnologia-presidencial-uruguaya-de-los-80-2020165059
https://www.elobservador.com.uy/nota/un-viaje-a-la-tecnologia-presidencial-uruguaya-de-los-80-2020165059
|submitted=No
|submitted=Yes
}}
}}

Latest revision as of 18:33, 30 March 2023


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Docket #:2019-09

This proposal has been submitted for review.


To the proposer’s knowledge, is this achievement subject to litigation? No

Is the achievement you are proposing more than 25 years old? Yes

Is the achievement you are proposing within IEEE’s designated fields as defined by IEEE Bylaw I-104.11, namely: Engineering, Computer Sciences and Information Technology, Physical Sciences, Biological and Medical Sciences, Mathematics, Technical Communications, Education, Management, and Law and Policy. Yes

Did the achievement provide a meaningful benefit for humanity? Yes

Was it of at least regional importance? Yes

Has an IEEE Organizational Unit agreed to pay for the milestone plaque(s)? Yes

Has an IEEE Organizational Unit agreed to arrange the dedication ceremony? Yes

Has the IEEE Section in which the milestone is located agreed to take responsibility for the plaque after it is dedicated? Yes

Has the owner of the site agreed to have it designated as an IEEE Milestone? Yes


Year or range of years in which the achievement occurred:

1985 -1988

Title of the proposed milestone:

URUguay CIBernético Real-time Information System, 1986-1988

Plaque citation summarizing the achievement and its significance:

URUguay CIBernético was a pioneering Executive Information System designed and implemented for the Presidency of Uruguay, and later adopted by other countries in the region. The system used a data network and advanced cybernetic modeling and statistical techniques to monitor key indicators of national well-being. Its intuitive graphical user interface offered government leaders real-time updates to inform decision-making and anticipate potential problems.

200-250 word abstract describing the significance of the technical achievement being proposed, the person(s) involved, historical context, humanitarian and social impact, as well as any possible controversies the advocate might need to review.


IEEE technical societies and technical councils within whose fields of interest the Milestone proposal resides.


In what IEEE section(s) does it reside?

Uruguay

IEEE Organizational Unit(s) which have agreed to sponsor the Milestone:

IEEE Organizational Unit(s) paying for milestone plaque(s):

Unit: Uruguay Section
Senior Officer Name: Alfredo Arnaud

IEEE Organizational Unit(s) arranging the dedication ceremony:

Unit: Uruguay Section
Senior Officer Name: Alfredo Arnaud

IEEE section(s) monitoring the plaque(s):

IEEE Section: Uruguay Section
IEEE Section Chair name: Alfredo Arnaud

Milestone proposer(s):

Proposer name: Juan Carlos Miguez
Proposer email: Proposer's email masked to public

Please note: your email address and contact information will be masked on the website for privacy reasons. Only IEEE History Center Staff will be able to view the email address.

Street address(es) and GPS coordinates in decimal form of the intended milestone plaque site(s):

ASSE: Avda. Dr. Luis A. de Herrrera 3626, Montevideo, Uruguay coordinates 34°52'11.7"S 56°09'57.6"W A second plaque will be placed at the present site of the Presidency, Plaza Independencia 710 .-

Describe briefly the intended site(s) of the milestone plaque(s). The intended site(s) must have a direct connection with the achievement (e.g. where developed, invented, tested, demonstrated, installed, or operated, etc.). A museum where a device or example of the technology is displayed, or the university where the inventor studied, are not, in themselves, sufficient connection for a milestone plaque.

Please give the address(es) of the plaque site(s) (GPS coordinates if you have them). Also please give the details of the mounting, i.e. on the outside of the building, in the ground floor entrance hall, on a plinth on the grounds, etc. If visitors to the plaque site will need to go through security, or make an appointment, please give the contact information visitors will need. It was the site of the Presidency; now is the Administration of the Public Health System, ASSE. A second plaque will be placed at the new building of the Presidency.

Are the original buildings extant?

yes

Details of the plaque mounting:

It’s big government building where the project was conceived, installed and operated for a few years.Now the Presidency has moved to another location. The plaque will be placed in the public entrance hall, freely open to the public during extended business hours [eventually COVID protection measures and security checks ]If the Committee so wishes, we can also arrange a plinth in the exterior, near the entrance.

How is the site protected/secured, and in what ways is it accessible to the public?

As said, as a big govt. building the site is secure. the main Entrance hall is open to everyone

Who is the present owner of the site(s)?

Government of Uruguay

What is the historical significance of the work (its technological, scientific, or social importance)? If personal names are included in citation, include justification here. (see section 6 of Milestone Guidelines)

Starting from scratch, an Executive Information System for the office of the President of the Republic of Uruguay was designed, built, and put into service resorting to cybernetics’ cutting edge principles. The concept of having on-line information available for decision making was truly revolutionary.  There had only been a frustrated previous case in Chile, twelve years before. 

In 1985 there was neither Internet nor mobile phones -it was prior to the computer and information revolution. In Uruguay, power, water, oil and telecommunications are provided by state companies, and report to the president. Most information and key indicators of government units were only available on delayed yearly reports. In the private sector the situation was similar - or worse. After years of dictatorship, the Executive Branch needed  daily, almost real-time information of key variables, to evaluate the situation of the country, provide early-detection of possible problems, and make well informed, correct decisions. 

URUCIB’s visionary aim was to provide this new democratic government, with a state-of-the-art tool. Man-machine interaction would allow the government to reach the most relevant and current information of the country .  The challenge was to have access to  public and private sources of information to be transmitted, processed, and filtered with statistical programs. Finally, a user-friendly presentation was created: figures and graphics appeared on computer screens set up in a Management Centre in the President’s office. These screens were operated with a remote-control which was easier to use than that of a television set. This information allowed the government to monitor the country's progress, anticipate potential problems, and simulate possible scenarios. 

It seems obvious, nowadays. But back then, it was a great novelty whose theoretical and technical assumptions  were absolutely  incomprehensible to ordinary people, it was like something magical, out of this world.   The United Nations program for development (PNUD) helped financially. The distinguished British cybernetics expert  Prof. Stafford Beer was hired as an advisor; the President of the Republic, Dr. Julio María Sanguinetti gave his enthusiastic support and project leader Eng. Victor Ganón and his devoted team were instrumental in making this trailblazing design, and successfully implementing the System. 

The interest aroused by URUCIB in Latin America resulted in the system being exported to the Argentine Republic and the Republic of Nicaragua, where it was used for many years. In Argentina it was installed in the Government of the Province of Buenos Aires (Governor Antonio Cafiero) and in the National President’s office  (President Carlos Menem). In Nicaragua it was installed in the National President’s office (President Violeta Chamorro). In Uruguay, systems were configured for Government Agencies to be aligned with the System and it continued to be used for many years, notably by the BPS (Social Security Bank). 

What obstacles (technical, political, geographic) needed to be overcome?

URUCIB had to overcome a myriad problems. To begin with, in 1985 there was no data network in Uruguay to transmit information from the different agencies to the President’s office. Therefore, a private data network -100% digital was designed and built in the country, resorting to telex network infrastructure.  

Additionally, it was necessary to develop programs to process and filter the information received (circa 1200 time series), and to detect incipient instabilities. To this end, the team resorted to  the work of Harrison and Steven, a Multiprocessing Dynamic Linear Growth Model . The kernel of the statistical model was enlarged with a Decision Scheme, to allow automatic change detection. Thus, there was no need to study individual probability values in the model´s application. 

Finally, a Management Centre was created: a new interactive environment for group decision-making. Although Windows was not available at that time, with MS-DO the whole System had  graphical representations of quantified facts, written in C language. The man-machine interface was designed bearing in mind ergonomics and that it were easy to use and learn. 

Given the multi and interdisciplinary character of the project, everything was not smooth sailing.  Team members had different approaches to reality, so there were disagreements at times. These were overcome, to a great extent, by means of project management procedures.  The project also caused confrontation with the bureaucratic structures of the agencies that provided information to the President. Eight months before the inauguration of the system, the resistance to URUCIB peaked among top managers of state agencies. An authoritarian approach was not an option, so conversations were held where parties expressed their views, discrepancies, fears, uncertainties and doubts. Ultimately, the relationship between URUCIB and these agencies was established on a very solid, legitimate and productive basis.

What features set this work apart from similar achievements?

1.- Organizational Model Prof. Stafford Beer´s cybernetic organizational model called Viable System Model (VSM) was selected for the project. This model was a powerful tool to describe and make a diagnosis of most agencies.


2.- Evolutionary prototype This was a fundamental feature and permanent guiding principle during the life of the project. It was consciously decided to achieve goals and meet deadlines, rather than working on some desired refinements for future versions.


3.- Usage of Statistics Following a suggestion made by Prof. Beer, Harrison and Stevens´s linear growth model was used to design an early warning System. It monitors the behaviour of time series and their trends. This feature is seldom found in today’s business analytics systems. The Statistical treatment of information also provided:

  • Early detection of change in times series structure
  • Time series transformation.
  • Automatic information storage and processing.
  • Utilities for the description and analysis of time series.



4.- Some Operational components of URUCIB specially designed and built for the project were: A data communications network where agencies’ information automatically reached the President’s office in real time. A time series data base, with different time periods, and qualitative information, for a multiuser environment. A set of programs for information statistical processing in real time, generating warnings of incipient changes, called News. A new interactive environment for group decision-making called Management Centre. It was possible to visualize chronological data in graphic form together with contextual information.


5.- Project team The entire design and development of URUCIB was made by a team of Uruguayan professionals (economists, accountants, engineers, programmers, statisticians), led by Eng. Victor Ganón, with advice from English cybernetics Expert Prof. Stafford Beer.

Supporting texts and citations to establish the dates, location, and importance of the achievement: Minimum of five (5), but as many as needed to support the milestone, such as patents, contemporary newspaper articles, journal articles, or chapters in scholarly books. 'Scholarly' is defined as peer-reviewed, with references, and published. You must supply the texts or excerpts themselves, not just the references. At least one of the references must be from a scholarly book or journal article. All supporting materials must be in English, or accompanied by an English translation.

media:urucib_oxford.pdf

media:URUCIB press.pdf

media:IDRC_CRDI_CIID_June_1989_Manuscript_Report_235e.pdf

media:ANALES_IEEE_1o_Seminario_Estado_de_la_Informatica_en_el_Uruguay_(2).pdf

media:URUCIB Registro derechos de autor.gif

Supporting materials (supported formats: GIF, JPEG, PNG, PDF, DOC): All supporting materials must be in English, or if not in English, accompanied by an English translation. You must supply the texts or excerpts themselves, not just the references. For documents that are copyright-encumbered, or which you do not have rights to post, email the documents themselves to ieee-history@ieee.org. Please see the Milestone Program Guidelines for more information.

media:Viable_system_Model.pdf

https://www.elobservador.com.uy/nota/un-viaje-a-la-tecnologia-presidencial-uruguaya-de-los-80-2020165059

Please email a jpeg or PDF a letter in English, or with English translation, from the site owner(s) giving permission to place IEEE milestone plaque on the property, and a letter (or forwarded email) from the appropriate Section Chair supporting the Milestone application to ieee-history@ieee.org with the subject line "Attention: Milestone Administrator." Note that there are multiple texts of the letter depending on whether an IEEE organizational unit other than the section will be paying for the plaque(s).

Please recommend reviewers by emailing their names and email addresses to ieee-history@ieee.org. Please include the docket number and brief title of your proposal in the subject line of all emails.