2.1. How the limits of human cognition enable algorithmic authority

Simon’s (Reference Simon and Estes1978a, Reference Simon1995) information processing paradigm focuses on how humans make decisions in the real world: “compatible with the access to information and the computational capacities that are actually possessed by organisms, including man, in the kinds of environments in which such organisms exist” (Simon, Reference Simon1955, p. 99).

Human computational capacities are limited, as is their time.Footnote ¹³ These “hardware” limits help explain real-world behaviors, which tend to follow heuristics—informational shortcuts and strategies that allow humans to make reasonable choices in everyday complex environments (Simon, Reference Simon1978b, p. 12, Simon, Reference Simon, Durlauf and Blume2017). Heuristics reflect human “satisficing behavior” which aims for “good enough” outcomes,Footnote ¹⁴ based on many unknowns. This contrasts with the economic assumption that humans “optimize” to achieve the “best” solution based on the known outcomes from every action. Simon’s emphasis on the decision-making process contrasts strongly with the neoclassical focus on (equilibrium) outcomes by unconstrained actors.

Simon’s insights are echoed by contemporary behavioral economics. Tversky and Kahneman (Reference Tversky and Kahneman1974, 1981) and Kahneman (Reference Kahneman2011) posited that humans have two decision-making modes: what they called System 1, for decisions that need to be made quickly, and System 2, for those that depend on careful rational analysis. According to Kahneman (Reference Kahneman2011), 98% of human decision-making relies on System 1. While these two systems are appropriate for different types of activity (immediate response to a threat, for instance, versus long-term planning), they may be applied inappropriately. System 1 is particularly subject to various cognitive biases, such as anchoring bias, by which the first piece of information presented to us frames our judgment of additional information.

Studies of actual human behavior on internet platforms bear out the predictions of both Simon’s “information abundant/attention scarce” model and behavioral economics. The majority of clicks tend to go to the first few results displayed near the top left of the screen (Keane and O’Brien, Reference Keane and O’Brien2006; Craswell et al., Reference Craswell, Zoeter, Taylor and Ramsey2008)—even if they will vary by some unknown amount as these results deteriorate in relevancy. This is called positional bias (Joachims et al., Reference Joachims, Swaminathan and Schnabel2017).Footnote ¹⁵ This is a form of anchoring bias that has been well documented by search engine optimization consultants. For example, a 2022 study of more than 4 million Google Search results pages found that more than 54% of clicks go to the first three organic results. Only 0.63% of users click through to the second page of the results (Dean, Reference Dean2023). A 2018 report from the web tracking firm Jumpshot (2018), based on a large sample of users, noted the same behavior on Amazon: user clicks are concentrated on the first few rows of product results. In our own study, we found that 78% of the most clicked product listings are positioned within the first two rows of the search results (Rock et al., Reference Rock, Strauss, O’Reilly and Mazzucato2023). Perhaps even more strikingly, in 2022, a study by e-commerce consulting firm Feedvisor (2022) reported that 32% of shoppers simply opted to buy the first product listed on a search results page.

The value proposition and business model of the modern internet is thus entirely in line with the premise that users are not perfect “hedonic calculators” (Robinson, Reference Robinson2001). And this is why users are able to benefit from intermediators such as Google or Amazon. Time savings accrue to users when they click on algorithmically ranked results based on position, trusting that the platform has done the work for them, rather than having to evaluate intrinsic and latent product qualities themselves. This behavioral heuristic saves users enormous amounts of time and cognition in decision-making. Following a platform’s algorithm can lead the user to make better choices, since it effectively secures what Simon (Reference Simon1997) calls a degree of expertise in the decision-making process.

The impact of that expertise is borne out by actual observed user behavior. Clicks go to the top results not just because of human positional bias, but also because the platforms have traditionally worked very hard to make the top results the best results. Google went so far as to patent a ranking factor that it called “the long click” (Lopatenko et al., Reference Lopatenko, Kim, Dornbush, Wei, Kilbourn and Lopyrev2015). The patent posited that a “short click” (i.e., when a user clicks on a result and comes right back and clicks on another result) indicates dissatisfaction with the result, while a long click (when the user goes away and does not come back) represents success. Along with countless other factors measured across millions of searches, long clicks could be used to raise or lower the rank of search results, with the goal that the first result gets the long click.Footnote ¹⁶ The success of these systems is precisely why they have gained the trust of users, and why that trust, once earned, can be abused.

A platform’s power to get users to click on its algorithmic outputs is imperfect, since clicks and views are also influenced by the broader relative prominence and attractiveness of the results as a whole (Yue et al., Reference Yue, Patel and Roehrig2010), including their relative informativeness (Keane and O’Brien, Reference Keane and O’Brien2006; Craswell et al., Reference Craswell, Zoeter, Taylor and Ramsey2008). Yet, the power that trusted platforms have to drive user attention, and in turn clicks or views, is immense. Attention directed to new information, including advertising, can lead to immediate, almost frictionless action. A purchase, a view of an addictive TikTok, YouTube, or Facebook video, a path down a rabbit hole of attention consumption, is just a click away. In feed recommendation systems such as those offered by social media systems, even clicks may not be necessary, as platforms increasingly use autoplaying videos to capture user attention, which thus becomes “opt out” rather than “opt in.”

The attention-shaping power of online platforms is a reminder of Simon’s key assertion that organizations or institutions—he often used the terms interchangeably—shape individual behavior by determining “the environments of information in which decisions are taken” (Simon, Reference Simon1997). Institutions help consumers make decisions by establishing a division of labor in “the process of deciding,” which is just as important as a division of labor in the processes of “doing,” argues Simon. He elaborates on these ideas in Administrative Behavior (Simon, Reference Simon1997, Chapter 7), focusing on the concept of authority in securing an effective division of labor in decision-making within the organization:

This passage could be read today as applying to algorithmic recommendations made by a dominant digital platform to a user, just as much as a recommendation coming from a senior manager or expert to a worker, as outlined by Simon.

2.2. How algorithmic authority enables attention rents

Attention rents occur when a platform abuses its algorithmic authority and exploits its role as a trusted intermediator to direct user attention (clicks or time spent) to suboptimal—often sponsored—information. At its core, these rents exploit users’ positional bias in how they click, or what they view, by placing this suboptimal information in users’ core attentional zone. This positional bias relies heavily on the suboptimal information trying to replicate, or leverage, the authority of a platform’s organic algorithmic result (so-called “trust bias”) (Keane and O’Brien, Reference Keane and O’Brien2006; Keane et al., Reference Keane, O’Brien and Smyth2008). The information may be embedded between the optimal organic results, or increasingly, may displace them.

One implication of this algorithmic power in allocating user attention is that it provides the platform with considerable leverage over both parties (suppliers and advertisers) looking to access user attention—the platform’s core commodity. The platform can ensure that paid (advertising) and organic results directly compete with one another for user attention (especially when placed “above the fold” as it was called in the days of newspapers, but today might be called “before the scroll.”)Footnote ¹⁷ The attention rent is levied on the users—to get them to allocate attention to more profitable content for the platform—in order to extract a pecuniary rent from the supplier or advertiser side of the dominant platform’s multisided market. This rent can help create an above-normal return for the platform, especially when combined with other charges and fees already placed on its ecosystem.

Thus, greater monetization of users entails a double-sided process, impacting not just a platform’s users but also third-party firms and advertisers, as the nature of content shown to users changes. Information from some third-party firms gets demoted by additional paid or addictive content, and the demoted content must adjust to the new algorithmic optimization to survive. Potential advertisers receive more priority attention space and, in turn, greater incentive to advertise. And users must consume more paid-for content. What happens on one side of the platform impacts the other(s) (Hovenkamp, Reference Hovenkamp2020)—not necessarily from network effects,Footnote ¹⁸ but by virtue of the fixed screen space (i.e., attention sphere) over which the platform sides compete.

2.3. How attention rents become pecuniary rents

Contemporary theories of platforms focus mostly on externalities arising from network effects. This helps explain why platforms provide services to users for free, in order to generate network effects and/or economies of scale. This also explains pricing structures on platforms, that is, how the pricing burden falls between the two sides of the platform. For Rochet and Tirole (Reference Rochet and Tirole2006), the optimal price structure on platforms is set indirectly to optimize total profits from both sides. This means that pricing on one side of the platform should take into account the impact it would have on participation—and in turn profits—on the other side of the platform.Footnote ¹⁹ This tends to create a highly imbalanced pricing structure, whereby users pay no pecuniary price for the platform and the price burden instead falls on third-party firms or advertisers. Because advertisers value an additional user considerably, and because users prefer free services to paying directly for them, it is often more profitable for the platform to charge users indirectly, through their attention.Footnote ²⁰

But this theory says less about what mature platforms, which have for some time been charging users zero (or low) prices, do next. When users face zero pecuniary prices, and their attention is monetized on the other side of the market, increasing profits initially come from gaining more users. But over time, as user growth slows, increasing profits from user participation become a function of the quantity of advertising. Weyl (Reference Weyl2010, p. 1643) goes so far as to see “the platform’s problem as [first] choosing participation rates on the two sides rather than the prices supporting this allocation.” User responsiveness to advertising, often measured in real time by the platform, becomes key for determining the optimal business model mix such that (Behringer and Filistrucchi, Reference Behringer and Filistrucchi2015, p. 293): “In two-sided markets, quantities on one market side are functions of prices on that market side and quantities on the other market side.”

It follows that algorithms coordinate platform sides not just by setting the price level as Tirole notes, but also by controlling attention allocations. If the participation of sides is relatively fixed (due to user stickiness and third-party lock-in), then extracting monopoly rents from one side of the platform requires adjusting attention allocations on the other side(s), since users must consume greater quantities of the more profitable content.Footnote ²¹

In a multisided digital platform, increasing profits or profitability for the platform thus tends to require changing the information content shown to users on the screen (Behringer and Filistrucchi, Reference Behringer and Filistrucchi2015): What information outputs a platform’s organic algorithms optimize for (such as recommendation algorithms optimizing for more sustained engagement); and/or the algorithmic mix of outputs (such as more advertising and fewer organic outputs) are essential ingredients to a platform increasing user monetization and extracting more profits from its ecosystem of firms or advertisers. Without changing the type of content shown to users, the opportunities for user monetization by the platform’s third-party firms or advertisers are limited to the traditional solution of raising prices (e.g., for advertising, subscriptions, or other fees).

These changes in information can impact value allocations if the platform chooses to algorithmically allocate more attention to paid or otherwise self-serving content. This is done constantly, by changes in the relative screen presentation of results, by changes to the underlying algorithmic ranking systems, and, as asserted in the US Department of Justice complaint against Google, by internal controls that “tweak” the results to get the desired outcome (United States of America v. Google LLC, 2020). Measured user behavior provides a rich stream of data by which the platform can assess the impact of changes and make further adjustments to reach its objectives (“operating metrics”).

In traditional markets, in which goods and services are directly traded for money, prices persistently higher than “normal” are seen as a sign of excess market power and rent extraction. In attention markets, the primary expression of algorithmic market power is the ability of the platform to profitably direct user attention, and to produce information allocations, that are to an appreciable degree independent of consumer preferences, competitor information relevance, and its users’ explicit search inputs. Algorithmic rent is part of a platform’s wider exertion of market power when it can make inferior attention allocations without losing sufficient sales, or users and third-party suppliers, to make such an allocation unprofitable (Begent and Collyer, Reference Begent and Collyer2013; Federal Trade Commission, et al. v. Amazon.Com, Inc. 2023).

A core notion explored in our research is that an attention rent exists when there is a deviation from the best attention allocations of which the platform is capable, and on whose promise the platform drew its users in the first place. In a competitive market, platforms win by providing the best possible results to consumers. Deviations from this standard generally occur once the platform has cemented its dominance and hold over user attention. Because it is extremely difficult and costly to deliver high-quality search or recommendation results, the market leaders are frequently far more capable than their competitors, which gives them additional room to worsen their results without losing customers.

Algorithmically driven attention allocations by the platform, matching users to suboptimal information, can create rents in the sense of “returns” to a factor of production—here “attention” (proxied by screen space and user time)—which is fixed in supply, largely invariant to changes in prices, and exploited for the platform’s own profit (Blaug, Reference Blaug1997; Alchian, Reference Alchian, Durlauf and Blume2017). A platform is increasing profits not from better matches (productivity improvements), but from information matches that are more profitable for itself, or from higher matching fees.

This pattern of rent extraction by exploiting the relative proportion and position of advertising and organic results is exactly what has been observed in practice. In its earlier years, Google Search result pages consisted of a list of ten organic search results (often referred to as the “ten blue links”) and a snippet of content from the destination site. These organic links were framed by adsFootnote ²²: three above the organic results, with additional ads in a column to the right of the organic results. The ads were clearly differentiated from the organic results in a distinct color block. A remarkable series of screenshots recorded by Dutch search engine consultant Blacquière (Reference Blacquière2014)—updated by Marvin (Reference Marvin2020)—shows how ads took over more of the Search screen and became increasingly hard to distinguish from organic search results on Google Search.

In 2016, the right-hand column of ads was removed completely (Kim, Reference Kim2016), and today, ads are nearly indistinguishable from organic results, interspersed between the organic results, and far more of the most favored space at the top of the page is given over to ads. Additional space is taken up by Google’s own content, often displayed in a carousel of images, or in an informational panel that Google refers to as a “OneBox” (O’Reilly, Reference O’Reilly2019), or most recently, in an AI-generated answer to the user’s query.

Clearly, internet platforms are well within their rights to monetize their offerings. When services are free to users, someone has to pay the bills. The question, though, is what level of monetization is justified to recover costs and earn a fair return on investment, and when does it become excessive? When is advertising of value to the supplier ecosystem and to users, and when does it become a source of extractive rents? It is not always easy to determine the answers.

At Amazon, however, the answer to the question of whether monetization has become extractive appears unambiguous. Almost all organic recommendations,Footnote ²³ which helped make Amazon’s digital marketplace revolutionary, have been replaced by purely paid-for recommendations or hybrid recommendations, for example, “Trending now—Sponsored,” or “Highly rated—Sponsored” (Kaziukėnas, Reference Kaziukėnas2021). E-commerce research firm marketplace pulse estimates that of the first 20 products a shopper sees when searching on Amazon, only 4 are now organic results (Kaziukėnas, Reference Kaziukėnas2022). Because of how paid results are placed, it can sometimes take scrolling past three browser windows worth of search results to get to the fifth organic result (Kaziukėnas, Reference Kaziukėnas2022).

Our own analysis of Amazon’s ability to allocate value (i.e., clicks) between competing products in its third-party marketplace through the algorithmic arrangement of search results shows that a product listing shifted to a sufficiently higher “attention share” position will receive more clicks, regardless of its relevance or price. A product listing in the bottom 10 for relevance, but the highest percentile for “attention share,” is as likely to be clicked as a top 5 most relevant product in an average position. This dynamic enables Amazon to trade-off the relevance of a search result for its screen position, through advertising, while maintaining a high click-through rate (Rock et al., Reference Rock, Strauss, O’Reilly and Mazzucato2023).

Users may be harmed when a platform replaces organic results with advertising because they may see fewer relevant options and may be directed away from better products or lower prices. Organic outputs and advertising both aim to be clicked on or looked at, but the ranking of the former is optimized for intrinsic relevance among all eligible information sources, while the latter optimizes directly for clicks among those firms that bid for user attention. While the most relevant ads can be as useful to consumers as the organic results, showing more ads means diving deeper into the inventory of ads and potentially showing worse ads that are not as useful.

The harms to Amazon’s marketplace suppliers from replacing organic content with ads are far more immediate. In a world where gatekeepers’ principal benefit to consumers is algorithmically curated access to a rich ecosystem of suppliers, and where their benefit to suppliers is algorithmically curated access to a huge market of end users, organic search results are the coin of the realm and fairness is of the essence. Paid results standing in for (rather than supplementing) organic results are the equivalent of a debased currency. When advertising replaces organic search results, the supplier ecosystem must now pay for visibility that it once earned through product quality and reputation signals.

As advertising dominates more of the screen, it has become a barrier to entryFootnote ²⁴ for merchants wanting to sell on Amazon—a tax on top of referral and fulfillment fees (Morrison, Reference Morrison2021). “There’s fewer organic search results on the Amazon marketplace page, so that increasingly means the only way to get on the page is to buy your way on there,” said Jason Goldberg, chief commerce strategy officer at advertising mega-firm Publicis (Palmer, Reference Palmer2021).Footnote ²⁵ The result, according to Quartile (2018), a major AI-powered advertising platform, is that Amazon is now a “pay-to-play” platform for top screen positions. Three-quarters of all sellers on Amazon now “choose” to advertise (Mileva, Reference Mileva2022). For small- and medium-sized sellers, the figure is 79% (Jungle Scout, 2022).

This is not advertising like that offered by Google or Facebook or traditional media, which rides as a passenger on a current of attention focused on information or entertainment, but a kind of Hunger Games-like competition between merchants to capture the purchases of people who are already looking to buy. It is a zero-sum transfer of attention and value between sellers (Gornyi, Reference Gornyi2023), which simultaneously increases revenue for Amazon but without “necessarily growing the sales volume” (Kaziukėnas, Reference Kaziukėnas2021). An attention boost to one seller necessarily comes at the expense of another.

Moreover, unlike in traditional media advertising, these ads appear in the actual decision-making interface with an almost identical appearance to the organically recommended product choices. The majority of Amazon marketplace ads simply duplicate the organic listings and appear on the same page, often adjacent to them, offering no additional information to consumers. And with ads and organic listings competing for user attention on the same search results screen, Amazon exploits users’ positional bias, and puts the ad rather than the organic result in the position most likely to be clicked on, thus extracting a fee from the supplier while providing no added benefit.Footnote ²⁶ This behavior demonstrates exactly what we mean when we say that Amazon uses attention rents extracted from users to extract corresponding pecuniary rents from its supplier ecosystem.

Through this zero-sum competition, Amazon has fostered both higher ad prices and lower return from ad spend (Jungle Scout, 2022; Soper, Reference Soper2023), leading to a rent transfer from third-party firms to the platform itself. By 2022, advertising had become a highly profitable $37.7 billion business for Amazon (Amazon.com, 2022, p. 67).Footnote ²⁷ Meanwhile, the average cost per click on Amazon ads doubled from $0.56 in 2018 to $1.2 in 2021 (Business of Apps, 2022). Average cost of spend was 30% according to Adbadger, meaning that 30 cents now has to be spent on ads to drive $1 of sales (The Badger, 2023).

Interestingly, as TikTok begins to mount an e-commerce challenge to Amazon, it is relying on new forms of algorithmic earned attention to attract and engage users. As with its social feed product, it uses viral cascades of user attention to surface popular content. In the case of e-commerce, that is the discovery of so-called “dupes,” lower-cost products that have the same or better features than higher cost branded products (Barinka, Reference Barinka2023). That is, TikTok is demonstrating once again that finding new signals that provide better organic algorithmic results provides a competitive advantage in acquiring and retaining users, and that algorithmic rents tend to be extracted by platforms only once they have cemented their dominance.

Distortion of the best algorithmically chosen results can also be seen in social media systems. Facebook, X (formerly Twitter), and Instagram all began by matching users with a unique feed of content from other users that they have chosen to follow, whether they be friends, celebrities, or news sources. During the growth period, when user acquisition is the paramount goal, these platforms align their algorithmic selections with this user promise.

In this early stage, sorting of posts in the feed is typically in reverse chronological order (newest to oldest), or through a social graph (from friends). Later, other possible arrangements are tried, such as sorting by posts with the most engagement. Eventually, the sorting is fully given over to the algorithmic recommendations. At first, users are given some control, allowing them to revert, for example, to a chronological sort, or to preference posts from those marked as friends, or from those the user has chosen to follow. Over time, these expressions of user preference are made harder to find or disappear entirely. Meanwhile, the ad load goes up, also making it harder to find and enjoy the posts that the user originally signed up for. Moreover, “dark patterns,” such as automatically switching the user to a feed of recommended videos (e.g., Instagram reels) as soon as they finish viewing a video posted by a friend, are also used to help override the user’s preferences. From there, it is a slippery slope to shaping the content shown in such a way as to extract additional attention from users by showing them whatever content will drive the most engagement.

While we have not done empirical research to measure algorithmic attention rents in social media, we believe that the notion of algorithmic attention rents provides fruitful avenues for further research and analysis of social media and other recommendation systems as well as for search-based systems.

3.1. Google Search: The market shaping power of attention allocations

Google does make a substantial effort to find the most relevant advertisements (Google, 2023b).Footnote ³² In the pay-per-click (PPC) ad system used in Google Search (“Adwords”), the company has strong incentives to find the ads that are most likely to draw clicks. In display advertising formats (pay-per-view), in which Google is a player through its algorithmic placement of ads on third party websites and its control of the ad exchanges in which advertisements are algorithmically bought and sold, Google’s incentives are less clearly aligned with those of its advertisers.

Even in the PPC system of Adwords, though, the pool of possible results comes from those willing and able to pay. And that strongly favors some firms over others. A good example may be found in a search such as “buy new tires.” In current designs, ads populate the best screen positions, and those ads typically come from large national chains and online sellers (O’Reilly, Reference O’Reilly2022). Local merchants are shown on a map far down the page, requiring scrolling to see them. The map does provide unpaid business listings that allow users to learn more about each of the merchants, including their opening hours, address, and phone number. This is valuable to both users and to merchants even though it does not take the form of a traditional web link. But this information is far harder to find today than it was 10 years ago. This imposes a time cost on users and a visibility penalty on suppliers, such that they must now advertise to gain attention that they had previously earned by signals such as quality and a location convenient to the user.

Note the market shaping power on display. As consumers increasingly rely on search engines to find products, Google is essentially deciding that those most willing and able to pay are more deserving of consumer attention than those that relevancy factors such as location or reputation suggest. This example highlights the responsibility of platforms to think deeply about the consequences of their attention allocations. In short, the trade-offs are not always obvious, and weighing the harms to any party requires careful analysis.

3.2. Amazon marketplace: Advertising as extractive rent

While celebrated by shareholders and analysts as a triumph of business strategy, earning the company enormous profits, Amazon’s marketplace advertising business seems to provide little benefit to either users or suppliers (who, in the case of Amazon’s third party marketplace, are also its advertisers). Users see fewer of the results that Amazon’s own algorithms have calculated as an ideal match for their search, and instead see ads, whose relevance is often lower.

In Rock et al. (Reference Rock, Strauss, O’Reilly and Mazzucato2023), we compared the organic rank of a search result with the ad rank of the same result.Footnote ³³ We found that on average an ad boosted the visibility of a possibly inferior (by the judgment of Amazon’s algorithms) product by between 5 and 50 positions, with a median boost of 17 positions. We also found that occupying high value screen positions is more important for sponsored than organic listings, suggesting that users are not finding the most relevant products in the top ranking spots.

There may be some benefit from advertising to merchants trying to raise the visibility of new high quality products (which may have fewer reviews and less history of being clicked on and purchased), but for the most part Amazon’s ad business appears simply to be an additional fee levied on merchants rather than providing added value to them. It raises their cost of doing business, which may be passed along to consumers in the form of higher prices. We found that the top-3 most clicked advertised products are about 17% more expensive than organic ones ($19.3 vs. $16.5) and one-third less relevant (organic rank of 4 vs. 3.)

Why do sellers put up with this behavior? As outlined in the recent United States Federal Trade Commission complaint against Amazon (Graham, Reference Graham2023),Footnote ³⁴ the company has used contractual requirements to raise switching costs and to prevent sellers from offering lower prices on competing marketplaces, or even on their own sites. Additional techniques involve punishing sellers who do not purchase services such as fulfillment and advertising from Amazon by sentencing them to virtual algorithmic invisibility. We explore this subject in greater detail in the companion paper, “Amazon’s Algorithmic Rents” (Strauss et al., Reference Strauss, O’Reilly and Mazzucato2023).

Why do users put up with it? It is quite possible that they do not, but just not in sufficient numbers to affect Amazon’s calculus about the overall profitability of its strategy. According to Stone (Reference Stone2021), “When sponsored ads were prominently displayed, there was a small, statistically detectable short-term decline in the number of customers who ended up making a purchase… But while he [Bezos] cautioned against alienating customers by serving too many ads, he opted to vigorously move forward, saying that any deleterious long-term consequences would have to be implausibly large to outweigh the potential windfall and the investment opportunities that could result from it.”

The damage to Amazon may be a gradual downslope or a sudden cliff. When does brand and reputation damage accumulate to the point that consumers start trusting Amazon less, shopping at Amazon less, and expending the effort of trying alternatives? If Amazon is experiencing slow, incremental costs from what it is doing, there is more hope that it will change its behaviorFootnote ³⁵ than if it is experiencing no costs unless regulators impose them.

3.3. Social media: Engagement is a two-edged sword

Assessing optimality for social media platforms, which may be used either for utility or entertainment, is more difficult than it is for utility platforms like search or e-commerce. If the user is simply looking to be entertained, an algorithmic feed optimized for engagement may arguably be what the user wants, as the success of TikTok demonstrates. And especially when informed by personalized data, ads can be highly relevant and add information value to consumers. But while higher engagement and time spent on a social media site can, on the surface, be seen as a sign that users are finding more value on it, there are also harms, starting with addictive behavior, and when engagement is driven by posts fueling anger, self-doubt, misinformation, or controversy.

Social media feed recommendations, which contain advertising directly in the feed, give platforms an incentive to extract attention rents via increased engagement. More time spent on the platform means more surface area for advertising. Thus, consumers may see a higher proportion of stories optimized for “bad” forms of engagement, including those that are divisive, titillating, contain misinformation, or are otherwise harmful to consumers. As Stray (Reference Stray2021) notes, over the long term, companies have incentives to manage for “good” engagement so that users do not leave, but over the short term, they can profit even from “bad” engagement.

Advertisers are also harmed when their ads are algorithmically matched to inappropriate content (Internet Advertising Bureau, 2020). Only the platform benefits, which is why we consider these systems ripe for attention rents. More research is needed.

5.1. Regulations of algorithmic output and preferences

For search-based algorithmic systems, including App Stores and e-commerce, regulators could impose the following requirements:

1. 1. A percentage of the screen positions receiving the top share of attention could be reserved for organic results.

2. 2. When ads duplicate organic results and provide no additional information (as in the Amazon marketplace), regulations could require that the organic result appear first, in the position most likely to be clicked on.

3. 3. When there is an exact match for a user query (as in a search for a product by brand name in the Amazon marketplace), the exact match organic result must be the first result.

For feed-based algorithmic systems, such as TikTok, Twitter, and Instagram:

1. 1. Platforms could be required to offer “sticky” preferences to users, rather than requiring them to repeatedly assert their wishes(e.g., in Instagram, it is possible for the user to choose to see posts only from those they follow or have marked as favorites, but the feed almost immediately reverts to the platform’s own algorithmic feed preferences). In general, when users opt out of a new behavior offered by the platforms, that preference should be persistent.

2. 2. Attention-hijacking patterns such as autoplaying videos could require an opt-in expression of preference.

However, these interventions suffer from several flaws:

1. 1. Platform behavior is a moving target, with new features, constant algorithm updates, and design changes.

2. 2. Regulatory interventions are likely to be countered by the platforms, much as they counter attempts by users and marketplace participants to “game” their algorithms.

3. 3. Over-specified regulations could inadvertently strangle legitimate innovations that would benefit not only the platforms but also their users and marketplace participants.

The more fundamental problem that regulators need to address is that the mechanisms by which platforms measure and manage user attention are poorly understood. Effective regulation depends on enhanced disclosures.

5.2. The need for regular, mandated, disclosures of operating metrics

The platforms themselves collect numerous and detailed operating metrics to judge and manage the performance of their own systems for directing user attention. They know how many users they have, how much time those users spend on each of the platform’s services, how they are monetized, and the impact of new services and designs on their usage and monetization. They know the ad load. They know the ratio of organic clicks to ad clicks. They know much traffic is sent on to outside sites, by market segment. They know the gross merchandise volume of an e-commerce marketplace or app store, and they know what percentage they collect in fees. And they know how each of these measurements compares to prior periods—and how those changes result from updates of their interface designs and algorithms—just as well as they know their personnel costs, capital equipment costs, revenue, and their profit. But only the financial metrics are reported regularly and consistently, and those financial reports are almost completely disconnected from the operating metrics that are used to actually manage so much of the business (O’Reilly et al., Reference O’Reilly, Strauss and Mazzucato2023a).

The lack of disclosure of operating metrics for the free side of internet aggregators is a gaping hole in the regulatory apparatus. Costs, revenue, profit, and other financial metrics may be sufficient to understand a business based on tangible inputs and outputs, but are not fit to purpose for information businesses whose assets and activities are largely intangible and whose market power is exercised through delivery of services that are free to consumers (Mazzucato et al., Reference Mazzucato, Strauss and Ryan-Collins2023).

Given the size of the major internet companies, these metrics need to be highly disaggregated, both on a geographical and product basis. Google parent Alphabet alone has more than nine free products with more than a billion users, yet it reports only one major business—“advertising.” The connection between its revenues and the underlying free products and services is completely opaque. Meta too discloses little disaggregated information about products such as Facebook, Instagram, WhatsApp, and Messenger, each with billions of users. This pattern is repeated across the industry.

Even the products that are directly monetized often are not required to be broken out in detail, due to outdated segment reporting rules. US securities regulations require companies to break out financial detail for any business operation (or “segment”) that represents more than 10% of revenue or profit, yet in practice, they allow for management discretion in what segments are reported. This allowed Amazon to hide the remarkable growth and profitability of its Amazon Web Services business for years, and for Apple to claim in response to a lawsuit from Epic Games that it did not actually know the profitability of its App Store (Mazzucato et al., Reference Mazzucato, Strauss and Ryan-Collins2023). But perhaps more importantly, it allows them to hide the workings of the free side of the products that underpin their enormous market power.

The most important first step is to understand how much is left out of the picture when market power is measured purely in financial terms. We live in an attention economy. A product like Google Maps, with over a billion users, has insignificant revenue relative to Alphabet’s total (perhaps $3 billion out of $289 billion), yet it is unquestionably the most powerful player in its competitive segment, offering free products that cap the growth and opportunities for smaller mapping companies like ESRI or Garmin with more traditional business models. Segment reporting rules should be triggered by the number of active users a product has, not just by its contribution to company revenue or profit.

5.3. Some recommended reportable operating metrics

Understanding what operating metrics need to be reported for free products and services is in its infancy. In contrast to the financial metrics required on the money side of businesses, which are rooted in systems of accounting dating back to the 13th century, the metrics that are used to govern algorithmic attention businesses are at best a few decades old. Nonetheless, we must make a start.

All metrics should be reported quarterly, with more detail annually, as part of the existing financial disclosures required of public companies. And because a historical view would be useful, to whatever extent possible, the introduction of such reporting should require a backward look for at least several years, and ideally much longer. As noted above, metrics should also be disaggregated by product, with reporting required for any product having more than 100 million monthly users. They should also be disaggregated by country, and by device type (desktop or mobile.)

Here are some of the metrics that would be useful for examining attention rents monetized through advertising:

1. 1. Ad load. Because not every page has the same number of ads—on Google, for example, many search engine results pages are noncommercial, and carry no ads at all—ad load should be reported by decile, or some other framework that highlights the ad concentration on the most highly monetized pages.

2. 2. Ratio of organic clicks to ad clicks. Again, by decile or other weighted format.

3. 3. Average click through rate of the first organic result. The proportion of users who visit the page who click on the first organic result.

4. 4. Average click through rate of the first ad. The proportion of users who visit the page who click on the first ad.

5. 5. Amount of traffic sent on to third party sites. This should be bucketed by market segment, such as news, entertainment, commerce, travel, local search, and so on.

6. 6. Amount of traffic sent to the company’s own other products and services. This could be further detailed by traffic source. For example, it would be useful to know how many users come to Google Search from Chrome on Apple devices vs. Chrome on Android, vs. from other browsers such as Firefox.

7. 7. Gross merchandise volume (for e-commerce platforms). Without this information, it is impossible to determine the percentage of all fees levied on third party marketplace participants.

8. 8. Gross fee revenue, including advertising from marketplace participants (for e-commerce platforms and app stores).

9. 9. A monetization narrative explains the relationship between these various metrics describing the free side of their platform and their monetization on other platform sides.

Ideally, regulators, working with cooperative industry players, would define reportable metrics based on those that are actually used by the platforms themselves to manage search, social media, e-commerce, and other algorithmic relevancy and recommendation engines. These metrics should then be standardized and required. There may be some metrics that can legitimately be considered trade secrets, but there are many that are common to most if not all internet businesses of the same type.

Note also that the operating metrics of big tech players are a moving target, constantly updated as the platforms continue to innovate. So this is also an opportunity to update the standards-setting process by which required reporting metrics are defined, mandating updated and timely reporting of any meaningful change in operating metrics.

Platforms will claim, with some justice, that disclosure will harm their businesses, as it will allow third parties to game their systems more easily. But this is akin to the old approach to cybersecurity, of “security through obscurity.” We have learned that it is far better to find and fix vulnerabilities than to hide them.

This is particularly important as we enter the age of large language models (LLMs) and generative AI, the next generation of attention management machines foretold by Herbert Simon. You cannot regulate what you do not understand (O’Reilly, Reference O’Reilly2023). It is not enough to rely on the assurances of powerful players that they are doing their best. Regular, reportable metrics will allow investors, the public, regulators, and the platforms themselves to better understand and operate truly free markets, which, as classical economists such as Adam Smith and David Ricardo believed, are not markets free of government intervention, but markets free of rents (Mazzucato, Reference Mazzucato2018).