Mohammad Akbarpour

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EC '18: Proceedings of the 2018 ACM Conference on Economics and Computation (3)
EC '22: Proceedings of the 23rd ACM Conference on Economics and Computation (2)
EC '14: Proceedings of the fifteenth ACM conference on Economics and computation (1)
EC '17: Proceedings of the 2017 ACM Conference on Economics and Computation (1)
EC '20: Proceedings of the 21st ACM Conference on Economics and Computation (1)
EC '21: Proceedings of the 22nd ACM Conference on Economics and Computation (1)
EC '23: Proceedings of the 24th ACM Conference on Economics and Computation (1)

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extended-abstract
Published By ACM
Published By ACM
Comparison of Screening Devices
- Mohammad Akbarpour
  Stanford University, Stanford, USA
  ,
- Piotr Dworczak
  Northwestern University, Evanston, USA
  Group for Research in Applied Economics, Warsaw, Poland
  ,
- Frank Yang
  Stanford University, Stanford, USA
EC '23: Proceedings of the 24th ACM Conference on Economics and Computation•July 2023, pp 60-60• https://doi.org/10.1145/3580507.3597767

Public agencies are often tasked with allocating scarce resources (such as public housing or financial aid) to a target population. In many such cases, the goal is to maximize social welfare, which requires identifying agents who have the highest ...
0Citation
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extended-abstract
Public Access
Published By ACM
Published By ACM
The Value of Excess Supply in Spatial Matching Markets
- Mohammad Akbarpour
  Stanford University, Stanford, CA, USA
  ,
- Yeganeh Alimohammadi
  Stanford University, Stanford, CA, USA
  ,
- Shengwu Li
  Harvard University, Cambridge, MA, USA
  ,
- Amin Saberi
  Stanford University, Stanford, CA, USA
EC '22: Proceedings of the 23rd ACM Conference on Economics and Computation•July 2022, pp 62-62• https://doi.org/10.1145/3490486.3538375

We study dynamic matching in a spatial setting. Drivers are distributed at random on some interval. Riders arrive in some (possibly adversarial) order at randomly drawn points. The platform observes the location of the drivers and can match newly ...
2Citation
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extended-abstract
Published By ACM
Published By ACM
An Economic Framework for Vaccine Prioritization
- Mohammad Akbarpour
  Stanford University, Stanford, CA, USA
  ,
- Eric Budish
  University of Chicago, Chicago, IL, USA
  ,
- Piotr Dworczak
  Northwestern University & GRAPE, Evanston, IL, USA
  ,
- Scott Duke Kominers
  Harvard University & a16z crypto, Cambridge, MA, USA
EC '22: Proceedings of the 23rd ACM Conference on Economics and Computation•July 2022, pp 1181-1181• https://doi.org/10.1145/3490486.3538241

We propose an economic framework for determining the optimal allocation of a scarce supply of vaccines that become gradually available during a public health crisis, such as the Covid-19 pandemic. Agents differ in observable and unobservable ...
1Citation
35
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extended-abstract
Public Access
Published By ACM
Published By ACM
Investment Incentives in Near-Optimal Mechanisms
- Mohammad Akbarpour
  Stanford University, Palo Alto, CA, USA
  ,
- Scott Duke Kominers
  Harvard University, Cambridge, MA, USA
  ,
- Shengwu Li
  Harvard University, Cambridge, MA, USA
  ,
- Paul R. Milgrom
  Stanford University, Palo Alto, CA, USA
EC '21: Proceedings of the 22nd ACM Conference on Economics and Computation•July 2021, pp 26-26• https://doi.org/10.1145/3465456.3467525

In many real-world resource allocation problems, optimization is computationally intractable, so any practical allocation mechanism must be based on an approximation algorithm. We study investment incentives in strategy-proof mechanisms that use such ...
1Citation
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abstract
Published By ACM
Published By ACM
Unpaired Kidney Exchange: Overcoming Double Coincidence of Wants without Money
- Mohammad Akbarpour
  Stanford University, Stanford, CA, USA
  ,
- Julien Combe
  CREST - Ecole Polytechnique, Palaiseau, France
  ,
- Yinghua He
  Rice University & Toulouse School of Economics, Houston, TX, USA
  ,
- Victor Hiller
  Université Paris 2, Paris, France
  ,
- Robert Shimer
  University of Chicago, Chicago, IL, USA
  ,
- Olivier Tercieux
  CNRS & Paris School of Economics, Paris, France
EC '20: Proceedings of the 21st ACM Conference on Economics and Computation•July 2020, pp 465-466• https://doi.org/10.1145/3391403.3399485

We propose a new matching algorithm -- Unpaired kidney exchange -- to tackle the problem of double coincidence of wants without using money. The fundamental idea is that "memory" can serve as a medium of exchange. In a dynamic matching model with ...
2Citation
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abstract
Published By ACM
Published By ACM
Diffusion, Seeding, and the Value of Network Information
- Mohammad Akbarpour
  Stanford University, Stanford, CA, USA
  ,
- Suraj Malladi
  Stanford University, Stanford, CA, USA
  ,
- Amin Saberi
  Stanford University, Stanford, CA, USA
EC '18: Proceedings of the 2018 ACM Conference on Economics and Computation•June 2018, pp 641-641• https://doi.org/10.1145/3219166.3219225

Identifying the optimal set of individuals to first receive information (`seeds') in a social network is a widely-studied question in many settings, such as the diffusion of information, microfinance programs, and new technologies. Numerous studies have ...
8Citation
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Public Access
Published By ACM
Published By ACM
Redistribution through Markets
- Piotr Dworczak
  University of Chicago, Chicago, IL, USA
  ,
- Scott Duke Kominers
  Harvard University, Cambridge, MA, USA
  ,
- Mohammad Akbarpour
  Stanford University, Stanford, CA, USA
EC '18: Proceedings of the 2018 ACM Conference on Economics and Computation•June 2018, pp 611-611• https://doi.org/10.1145/3219166.3219213

Even when global income redistribution is not feasible, market designers can seek to mitigate inequality within individual markets. If sellers are systematically poorer than buyers, for example, they will be willing to sell at relatively low prices. Yet ...
3Citation
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abstract
Published By ACM
Published By ACM
Credible Mechanisms
- Mohammad Akbarpour
  Stanford University, Stanford, CA, USA
  ,
- Shengwu Li
  Harvard University, Cambridge, MA, USA
EC '18: Proceedings of the 2018 ACM Conference on Economics and Computation•June 2018, pp 371-371• https://doi.org/10.1145/3219166.3219169

Consider an extensive-form mechanism, run by an auctioneer who communicates sequentially and privately with agents. Suppose the auctioneer can make any deviation that no single agent can detect. We study the mechanisms such that it is incentive-...
10Citation
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abstract
Public Access
Published By ACM
Published By ACM
Diffusion in Networks and the Unexpected Virtue of Burstiness
- Mohammad Akbarpour
  Stanford University, Stanford, CA, USA
  ,
- Matthew Jackson
  Stanford University, Stanford, CA, USA
EC '17: Proceedings of the 2017 ACM Conference on Economics and Computation•June 2017, pp 543-543• https://doi.org/10.1145/3033274.3085105

Whether an idea, information, disease, or innovation diffuses throughout a society depends not only on the structure of the network of interactions, but also on the timing of those interactions. Recent studies have shown that diffusion can fail on a ...
0Citation
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Published By ACM
Published By ACM
Dynamic matching market design
- Mohammad Akbarpour
  Stanford University, Stanford, USA
  ,
- Shengwu Li
  Stanford University, Stanford, USA
  ,
- Shayan Oveis Gharan
  UC Berkeley, Berkeley, USA
EC '14: Proceedings of the fifteenth ACM conference on Economics and computation•June 2014, pp 355-355• https://doi.org/10.1145/2600057.2602887

We introduce a simple benchmark model of dynamic matching in networked markets, where agents arrive and depart stochastically and the network of acceptable transactions between agents forms a random graph. We analyze our model from three perspectives: ...
17Citation
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Author Profile Pages

Description: The Author Profile Page initially collects all the professional information known about authors from the publications record as known by the ACM bibliographic database, the Guide. Coverage of ACM publications is comprehensive from the 1950's. Coverage of other publishers generally starts in the mid 1980's. The Author Profile Page supplies a quick snapshot of an author's contribution to the field and some rudimentary measures of influence upon it. Over time, the contents of the Author Profile page may expand at the direction of the community.
Please see the following 2007 Turing Award winners' profiles as examples:
History: Disambiguation of author names is of course required for precise identification of all the works, and only those works, by a unique individual. Of equal importance to ACM, author name normalization is also one critical prerequisite to building accurate citation and download statistics. For the past several years, ACM has worked to normalize author names, expand reference capture, and gather detailed usage statistics, all intended to provide the community with a robust set of publication metrics. The Author Profile Pages reveal the first result of these efforts.
Normalization: ACM uses normalization algorithms to weigh several types of evidence for merging and splitting names.
These include:
- co-authors: if we have two names and cannot disambiguate them based on name alone, then we see if they have a co-author in common. If so, this weighs towards the two names being the same person.
- affiliations: names in common with same affiliation weighs toward the two names being the same person.
- publication title: names in common whose works are published in same journal weighs toward the two names being the same person.
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The more conservative the merging algorithms, the more bits of evidence are required before a merge is made, resulting in greater precision but lower recall of works for a given Author Profile. Many bibliographic records have only author initials. Many names lack affiliations. With very common family names, typical in Asia, more liberal algorithms result in mistaken merges.

Automatic normalization of author names is not exact. Hence it is clear that manual intervention based on human knowledge is required to perfect algorithmic results. ACM is meeting this challenge, continuing to work to improve the automated merges by tweaking the weighting of the evidence in light of experience.
Bibliometrics: In 1926, Alfred Lotka formulated his power law (known as Lotka's Law) describing the frequency of publication by authors in a given field. According to this bibliometric law of scientific productivity, only a very small percentage (~6%) of authors in a field will produce more than 10 articles while the majority (perhaps 60%) will have but a single article published. With ACM's first cut at author name normalization in place, the distribution of our authors with 1, 2, 3..n publications does not match Lotka's Law precisely, but neither is the distribution curve far off. For a definition of ACM's first set of publication statistics, see Bibliometrics
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ACM will expand this edit facility to accommodate more types of data and facilitate ease of community participation with appropriate safeguards. In particular, authors or members of the community will be able to indicate works in their profile that do not belong there and merge others that do belong but are currently missing.

A direct search interface for Author Profiles will be built.

An institutional view of works emerging from their faculty and researchers will be provided along with a relevant set of metrics.

It is possible, too, that the Author Profile page may evolve to allow interested authors to upload unpublished professional materials to an area available for search and free educational use, but distinct from the ACM Digital Library proper. It is hard to predict what shape such an area for user-generated content may take, but it carries interesting potential for input from the community.

Bibliometrics

The ACM DL is a comprehensive repository of publications from the entire field of computing.

It is ACM's intention to make the derivation of any publication statistics it generates clear to the user.

Average citations per article = The total Citation Count divided by the total Publication Count.
Citation Count = cumulative total number of times all authored works by this author were cited by other works within ACM's bibliographic database. Almost all reference lists in articles published by ACM have been captured. References lists from other publishers are less well-represented in the database. Unresolved references are not included in the Citation Count. The Citation Count is citations TO any type of work, but the references counted are only FROM journal and proceedings articles. Reference lists from books, dissertations, and technical reports have not generally been captured in the database. (Citation Counts for individual works are displayed with the individual record listed on the Author Page.)
Publication Count = all works of any genre within the universe of ACM's bibliographic database of computing literature of which this person was an author. Works where the person has role as editor, advisor, chair, etc. are listed on the page but are not part of the Publication Count.
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Downloads (12 months) = The cumulative number of times all works by this author have been downloaded from an ACM full-text article server over the last 12-month period for which statistics are available. The counts displayed are usually 1-2 weeks behind the current date. (12-month download counts for individual works are displayed with the individual record.)
Downloads (6 weeks) = The cumulative number of times all works by this author have been downloaded from an ACM full-text article server over the last 6-week period for which statistics are available. The counts displayed are usually 1-2 weeks behind the current date. (6-week download counts for individual works are displayed with the individual record.)

ACM Author-Izer Service

Summary Description

ACM Author-Izer is a unique service that enables ACM authors to generate and post links on both their homepage and institutional repository for visitors to download the definitive version of their articles from the ACM Digital Library at no charge.

Downloads from these sites are captured in official ACM statistics, improving the accuracy of usage and impact measurements. Consistently linking to definitive version of ACM articles should reduce user confusion over article versioning.

ACM Author-Izer also extends ACM’s reputation as an innovative “Green Path” publisher, making ACM one of the first publishers of scholarly works to offer this model to its authors.

To access ACM Author-Izer, authors need to establish a free ACM web account. Should authors change institutions or sites, they can utilize the new ACM service to disable old links and re-authorize new links for free downloads from a different site.

How ACM Author-Izer Works

Authors may post ACM Author-Izer links in their own bibliographies maintained on their website and their own institution’s repository. The links take visitors to your page directly to the definitive version of individual articles inside the ACM Digital Library to download these articles for free.

The Service can be applied to all the articles you have ever published with ACM.

Depending on your previous activities within the ACM DL, you may need to take up to three steps to use ACM Author-Izer.

For authors who do not have a free ACM Web Account:

Go to the ACM DL http://dl.acm.org/ and click SIGN UP. Once your account is established, proceed to next step.

For authors who have an ACM web account, but have not edited their ACM Author Profile page:

Sign in to your ACM web account and go to your Author Profile page. Click "Add personal information" and add photograph, homepage address, etc. Click ADD AUTHOR INFORMATION to submit change. Once you receive email notification that your changes were accepted, you may utilize ACM Author-izer.

For authors who have an account and have already edited their Profile Page:

Sign in to your ACM web account, go to your Author Profile page in the Digital Library, look for the ACM Author-izer link below each ACM published article, and begin the authorization process. If you have published many ACM articles, you may find a batch Authorization process useful. It is labeled: "Export as: ACM Author-Izer Service"

ACM Author-Izer also provides code snippets for authors to display download and citation statistics for each “authorized” article on their personal pages. Downloads from these pages are captured in official ACM statistics, improving the accuracy of usage and impact measurements. Consistently linking to the definitive version of ACM articles should reduce user confusion over article versioning.

Note: You still retain the right to post your author-prepared preprint versions on your home pages and in your institutional repositories with DOI pointers to the definitive version permanently maintained in the ACM Digital Library. But any download of your preprint versions will not be counted in ACM usage statistics. If you use these AUTHOR-IZER links instead, usage by visitors to your page will be recorded in the ACM Digital Library and displayed on your page.

FAQ

Q. What is ACM Author-Izer?
A. ACM Author-Izer is a unique, link-based, self-archiving service that enables ACM authors to generate and post links on either their home page or institutional repository for visitors to download the definitive version of their articles for free.
Q. What articles are eligible for ACM Author-Izer?
A. ACM Author-Izer can be applied to all the articles authors have ever published with ACM. It is also available to authors who will have articles published in ACM publications in the future.

Q. Are there any restrictions on authors to use this service?
A. No. An author does not need to subscribe to the ACM Digital Library nor even be a member of ACM.

Q. What are the requirements to use this service?
A. To access ACM Author-Izer, authors need to have a free ACM web account, must have an ACM Author Profile page in the Digital Library, and must take ownership of their Author Profile page.

Q. What is an ACM Author Profile Page?
A. The Author Profile Page initially collects all the professional information known about authors from the publications record as known by the ACM Digital Library. The Author Profile Page supplies a quick snapshot of an author's contribution to the field and some rudimentary measures of influence upon it. Over time, the contents of the Author Profile page may expand at the direction of the community. Please visit the ACM Author Profile documentation page for more background information on these pages.

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- Sign-In to the ACM Digital Library
- Find your Author Profile Page by searching the ACM Digital Library for your name
- Find the result you authored (where your author name is a clickable link)
- Click on your name to go to the Author Profile Page
- Click the "Add Personal Information" link on the Author Profile Page
- Wait for ACM review and approval; generally less than 24 hours

Q. Why does my photo not appear?
A. Make sure that the image you submit is in .jpg or .gif format and that the file name does not contain special characters

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Q. What happens if an author changes the location of his bibliography or moves to a new institution?
A. Should authors change institutions or sites, they can utilize ACM Author-Izer to disable old links and re-authorize new links for free downloads from a new location.

Q. What happens if an author provides a URL that redirects to the author’s personal bibliography page?
A. The service will not provide a free download from the ACM Digital Library. Instead the person who uses that link will simply go to the Citation Page for that article in the ACM Digital Library where the article may be accessed under the usual subscription rules.

However, if the author provides the target page URL, any link that redirects to that target page will enable a free download from the Service.

Q. What happens if the author’s bibliography lives on a page with several aliases?
A. Only one alias will work, whichever one is registered as the page containing the author’s bibliography. ACM has no technical solution to this problem at this time.

Q. Why should authors use ACM Author-Izer?
A. ACM Author-Izer lets visitors to authors’ personal home pages download articles for no charge from the ACM Digital Library. It allows authors to dynamically display real-time download and citation statistics for each “authorized” article on their personal site.

Q. Does ACM Author-Izer provide benefits for authors?
A. Downloads of definitive articles via Author-Izer links on the authors’ personal web page are captured in official ACM statistics to more accurately reflect usage and impact measurements.

Authors who do not use ACM Author-Izer links will not have downloads from their local, personal bibliographies counted. They do, however, retain the existing right to post author-prepared preprint versions on their home pages or institutional repositories with DOI pointers to the definitive version permanently maintained in the ACM Digital Library.

Q. How does ACM Author-Izer benefit the computing community?
A. ACM Author-Izer expands the visibility and dissemination of the definitive version of ACM articles. It is based on ACM’s strong belief that the computing community should have the widest possible access to the definitive versions of scholarly literature. By linking authors’ personal bibliography with the ACM Digital Library, user confusion over article versioning should be reduced over time.

In making ACM Author-Izer a free service to both authors and visitors to their websites, ACM is emphasizing its continuing commitment to the interests of its authors and to the computing community in ways that are consistent with its existing subscription-based access model.

Q. How do authors access ACM Author-Izer?
A. See How to Use

Q. Why can’t I find my most recent publication in my ACM Author Profile Page?
A. There is a time delay between publication and the process which associates that publication with an Author Profile Page. Right now, that process usually takes 4-8 weeks.

Q. How does ACM Author-Izer expand ACM’s “Green Path” Access Policies?
A. ACM Author-Izer extends the rights and permissions that authors retain even after copyright transfer to ACM, which has been among the “greenest” publishers. ACM enables its author community to retain a wide range of rights related to copyright and reuse of materials. They include:
- Posting rights that ensure free access to their work outside the ACM Digital Library and print publications
- Rights to reuse any portion of their work in new works that they may create
- Copyright to artistic images in ACM’s graphics-oriented publications that authors may want to exploit in commercial contexts
- All patent rights, which remain with the original owner

Mohammad Akbarpour