WO2022071920A1 - Printing device line width determination - Google Patents

Abstract

Example implementations relate to a printing device line width determination. Some examples include a non-transitory machine-readable medium containing instructions executable by a processor to cause the processor to receive location data associated with a printing device from a first plurality of sources, receive data associated with use of the printing device from a second plurality of sources, and determine a printing device line width for the printing device based on the location data and the data associated with use of the printing device.

Description

PRINTING DEVICE UNE WIDTH DETERMINATION

Background

[0001] A computing device can be a mechanical or electrical device that transmits or modifies energy to perform or assist in the performance of human tasks. Examples include thin clients, personal computers, printing devices, laptops, mobile devices (e.g., e-readers, tablets, smartphones, etc.), Intemet-of-things (loT) enabled devices, and gaming consoles, among others. A user device can include be a computing device such as a laptop, phone (e.g. smartphone, phablet, etc.), tablet, desktop, wearable smart device, etc. used by a user. The user device may be a mobile device. When in communication with a computing device such as a printing device, a user device may generate a print job at the printing device.

Brief Description of the Drawings

[0002] Figure 1 illustrates a system for determining a printing device line width according to an example;

[0003] Figure 2 illustrates a diagram of a controller including a processor, a memory resource, and instructions according to an example;

[0004] Figure 3 illustrates a method for determining a printing device line width according to an example; and

[0005] Figure 4 illustrates another method for determining a printing device line width according to an example.

Detailed Description

[0006] A printing device includes a hardware device that transfers a print substance on to a print media such as paper. Examples include laser printers, light- emitting diode (LED) printers, inkjet printers, solid ink printers, thermal printers, and three-dimensional (3D) printers, among others. As noted above, when in communication with a computing device such as a printing device, a user device (e.g., smartphone, personal computing device, laptop, phablet, tablet, smartwatch, etc.) may generate a print job. Printing devices may have different line width settings. For instance, a printing device line width can include a width of a line printing on the print media. Example printing device line widths include, but are not limited to, 180 microns and 200 microns. Different printing device line widths may use different amounts of toner (e.g., in a laser printing device), with larger (e.g., thicker, wider) printing device line widths using more toner as compared to smaller (e.g., thinner, skinnier) printing device line widths.

[0007] Depending on the print job, it may be desirable to have a larger printing device line width, for instance if fine features and details are being printed, while a smaller printing device line width may be desired to increase page yield and/or reduce printing costs. For instance, certain languages are associated with fonts and scripts having fine features such as lines and dots that may be more legible if larger printing device line widths are used. However, such printing device line widths consume more toner, resulting in higher costs and more frequent replacement of toner cartridges for both a consumer and a manufacturer.

[0008] Some approaches include setting a printing device line width based on a location to which a printing device type has been previously sent. For instance, printing device type A may have been historically sent to location A, which may be associated with a language having associated scripts (e.g., characters and/or symbols associated with the language) with finer detail as opposed to other scripts. In such examples, printing device type A may be set with a larger default printing device line width as compared to printing device type B historically sent to location B associated with a language having associated scripts with less detail.

[0009] Such approaches can result in wasted toner when a printing device with a larger default printing device line width is delivered to a user that does not print the finer detail scripts. This may result in higher costs and lower satisfaction. Similar, when a user that does print finer detail scripts receives a printing device with a smaller default printing device line width, satisfaction may be lower due to inaccuracies or undesired printing results.

[0010] In contrast, examples of the present disclosure use computing device and/or printing device geolocation information and user data and preferences to identify computing devices and/or printing devices that use indigenous fonts whose print results may improve with increased printing device line widths. The can result in improved customer satisfaction, reduced toner waste, and/or lower costs for customers and/or manufacturers.

[0011] Elements shown in the various figures herein can be added, exchanged, and/or eliminated so as to provide a number of additional examples of the present disclosure. In addition, the proportion and the relative scale of the elements provided in the figures are intended to illustrate the examples of the present disclosure and should not be taken in a limiting sense.

[0012] Figure 1 illustrates a system 128 for determining printing device width according to an example. System 128 can be a computing device (e.g., different than the printing device) in some examples and can include a processor 129. System 128 can further include a non-transitory machine-readable medium (MRM) 130, on which may be stored instructions, such as instructions 131, 132, and 133. Although the following descriptions refer to a processor and a memory resource, the descriptions may also apply to a system with multiple processors and multiple memory resources. In such examples, the instructions may be distributed (e.g., stored) across multiple non-transitory MRMs and the instructions may be distributed (e.g., executed by) across multiple processors.

[0013] Non-transitory MRM 130 may be an electronic, magnetic, optical, or other physical storage device that stores executable instructions. Thus, non-transitory MRM 130 may be, for example, Random Access Memory (RAM), an Electrically-Erasable Programmable ROM (EEPROM), a storage drive, an optical disc, and the like. Non- transitory MRM 130 may be disposed within system 128, as shown in Figure 1. In this example, the executable instructions 131, 132, and 133 can be “installed” on the device. Additionally and/or alternatively, non-transitory MRM 130 can be a portable, external or remote storage medium, for example, that allows system 128 to download the instructions 131, 132, and 133 from the portable/extemal/remote storage medium. In this situation, the executable instructions may be part of an “installation package”. In some examples, the executable instructions may be performed in real time. As described herein, non-transitory MRM 130 can be encoded with executable instructions for determining a printing device line width.

[0014] Instructions 131 , when executed by a processor such as processor 129, can include instructions to receive location data associated with a printing device from a first plurality of sources. The location data can include geolocation data such as a physical location and/or a geo-spatial position of the printing device and/or an associated computing device such as a mobile device via which a user requests a print job, for instance using an application installed on the mobile device. The first plurality of sources can include, for instance, a Global Positioning System (GPS) of the mobile device requesting the print job, a GPS of the printing device, an Internet Protocol (IP) address of the mobile device, an IP address of the printing device, a database of user account data, telemetry with geolocation, a database of customer accounts, an application on the mobile device, or a combination thereof.

[0015] In some instances, the first plurality of sources can include manual input by an administrator, Bluetooth low energy (BLE) information, local-area network (LAN) Internet Protocol (IP) address information, wide-area network (WAN) IP address information, near-field communications (NFC), mobile release (e.g., mobile print release), computing device panel login, quick response (QR) codes, connected and/or enabled loT devices, personal identification (PIN) codes, proximity cards, Wi- Fi, Wi-Fi Aware, geofencing, cloud connectivity status, network performance information, successful direct addressing, or combinations thereof, among others. [0016] Such sources can provide current or previous locations of a printing device or computing device assodated therewith, such as a printing device, which may act as data points in determining a location of the printing device. For example, location data may be received when a user logs into the printing device uses a proximity card or PIN. This can indicate where the particular printing device is located. Similarly, the printing device can provide location data via IP addresses, while data user’s smartphone may provide GPS coordinates or mobile release information. In some examples, an administrator may manually enter a location of the printing device as a source of location data. Other example location data may be used in some examples. [0017] Instructions 132, when executed by a processor such as processor 129, can include instructions to receive data associated with use of the printing device from a second plurality of sources. For instance, the data associated with the use of the printing device can include language and script information associated with the printing device. The second plurality of sources can include, for example, a database of languages and associated scripts, a database of printing excursions by location (e.g., departures from default configuration printing), a database of scripts associated with particular features, a memory device of the printing device storing a selected language for the printing device, a memory device storing a selected language for a mobile device requesting a print job from the printing device, or a combination thereof.

[0018] Instructions 133, when executed by a processor such as processor 129, can include instructions to determine a printing device line width for the printing device based on the location data and the data associated with use of the printing device. For instance, based on where the printing device is located and how the printing device is used, a printing device line width that best suits print jobs completed by the printing device can be determined. For instance, if the location data indicates the printing device and/or an associated computing device (e.g., a user's smartphone) are located in China (e.g., or other location associated with languages having scripts with fine detail), and data associated with use of the printing device indicates that the printing device prints Chinese characters with a threshold amount of frequency (e.g., the most frequent script printed, etc.), it may be determined that a larger printing device line width is suitable for the printing device.

[0019] In some examples, the location data may indicate the printing device and/or an associated computing device is located in a location associated with languages having scripts with fine detail, but the data associated with the use of the printing device indicates Latin alphabet characters are used at or above a threshold frequency. In such an example, a determination may be made that a smaller printing device line width is suitable for the printing device because despite its location, the printing device is used most often for scripts that may be printed with a smaller printing device line width without losing clarity and/or accuracy. [0020] In some examples, if the location data indicates the printing device and/or an associated computing device is located in a location associated with languages having scripts with coarser detail, but the data associated with the use of the printing device indicates scripts associated with finer detail are used at or above a threshold frequency, a determination may be made that a larger printing device line width is suitable for the printing device because despite its location, the printing device is used most often for scripts that may be printed with a larger printing device line width to avoid loss of clarity and/or accuracy.

[0021] In some examples, the instructions can be executable to compare the location data and the data associated with use of the printing device to a database comprising a library of indigenous scripts affected by adjustment of printing device line width and determine the printing device line width based on the comparison. For instance, the library may include indigenous scripts (e.g., scripts, characters, etc. associated with particular languages) paired with a printing device line width suggestion. For instance, script A may be paired with printing device line width A because printing device line width A allows for a clear, accurate printing of script A. Printing device line width A may be the smallest printing device line width that can be used without losing accuracy when printing script A. In some examples, multiple printing device line width options may be paired with each indigenous script in the library.

[0022] In some instances, the instructions can be executable to automatically adjust a current printing device line width to the determined printing device line width responsive to the determination. As used herein, “automatic” or “automatically" can include performing an action with limited or no user input and/or with limited or no prompting. Put another way, upon determination of the printing device line width, the printing device can be adjusted accordingly without user input or prompting. For instance, if the printing device has a current default printing device line width setting of 180 microns, but it is determined based on the location data and data associated with use of the printing device that characters printed may benefit from a larger printing device line width, the printing device line width can be automatically changed to, for instance, 200 microns. [0023] In some examples, the instructions can be executable to communicate the determined printing device line width to a processor of a mobile device that requested a print job from the printing device and prompt, via a user interface of the mobile device, an inquiry to change a current printing device line width to the determined printing device line width. For instance, in the previous example, a user can be notified and/or prompted regarding the change in printing device line width. The user may receive an email, text message, or other prompt (e.g., responsive to requesting a print job to the printing device) asking if the user would like to adjust the printing device line width. The user may opt in or out of the change, for instance, via the user interface.

[0024] Figure 2 illustrates a diagram of a controller 220 including a processor 218, a memory resource 221, and instructions 222, 223, 224, 225, and 226 according to an example. For instance, the controller 220 can be a combination of hardware and instructions for determining a printing device line width. The hardware, for example can include a processor 218 and/or a memory resource 221 (e.g., MRM, computer-readable medium (CRM), data store, etc.).

[0025] The processor 218, as used herein, can include a number of processing resources capable of executing instructions stored by a memory resource 221. The instructions (e.g., machine-readable instructions (MRI)) can include instructions stored on the memory resource 221 and executable by the processor 218 to implement a desired function (e.g., determining a printing device line width). The memory resource 221, as used herein, can include a number of memory components capable of storing non-transitory instructions 222, 223, 224, 225, and 226 that can be executed by processor 218. Memory resource 221 can be integrated in a single device or distributed across multiple devices. Further, memory resource 221 can be fully or partially integrated in the same device as processor 218 or it can be separate but accessible to that device and processor 218. Thus, it is noted that the controller 220 can be implemented on an electronic device and/or a collection of electronic devices, among other possibilities.

[0026] The memory resource 221 can be in communication with the processor 218 via a communication link (e.g., path) 219. The communication link 219 can be local or remote to an electronic device associated with the processor 218. The memory resource 221 includes instructions 222, 223, 224, 225, and 226. The memory resource 221 can include more or less instructions than illustrated to perform the various functions described herein. The instructions 222, 223, 224, 225, and 226 (e.g., software, firmware, etc.) can be downloaded and stored in the memory resource 221 (e.g., MRM) as well as a hard-wired program (e.g., logic), among other possibilities.

[0027] Instructions 222, when executed by a processor such as processor 218, can include instructions to receive location data associated with a printing device from a first plurality of sources, and instructions 223, when executed by a processor such as processor 218, can include instructions to receive data associated with use of the printing device from a second plurality of sources. The location data, for instance, can include a physical location of the printing device, a delivery address associated with the printing device, an IP address of the printing device, a physical location of a mobile device requesting a print job from the printing device, a billing address associated with the printing device, an IP address of the mobile device, or a combination thereof. The first plurality of sources can include, for example, a computing device associated with the printing device, the printing device, a plurality of different computing devices that have requested access to the printing device (e.g., a mobile device and a personal computer requesting print jobs from the printing device), and user input.

[0028] The data associated with use of the printing device can include, for instance, a selected language for the printing device, a selected language for a mobile device requesting a print job from the printing device, scripts associated with the selected language for the printing device, scripts associated with the selected language for the mobile device, or a combination thereof. The second plurality of sources can include, for example, a database of languages and associated scripts, a database of printing excursions by location, a database of scripts associated with particular features, a memory device of the printing device storing a selected language for the printing device, a memory device storing a selected language for a mobile device requesting a print job from the printing device, or a combination thereof.

[0029] In some examples, access to a user’s shipping address or billing data may be available via a subscription service (e.g., service that sends toner periodically), and this data may be used to determine location data. In such an example, the shipping address and/or billing address may indicate a location in which a language associated with a more detailed script is spoken, and a determination may be made to adjust a printing device line width to be larger (or leave it the same if it is already larger). Another example may include receiving data associated with a default language of the printing device and/or an associated computing device. If both devices are set to English, a printing device line width may be determined based on an assumption that print jobs may most often utilize the Latin alphabet, for instance resulting in a smaller printing device line width determination.

[0030] Instructions 224, when executed by a processor such as processor 218, can include instructions to compare the location data and the data associated with use of the printing device to a database communicatively coupled to the controller and comprising a library of indigenous scripts affected by adjustment of printing device line width of the printing device. For instance, the library can include local language and font/script data, along with printing device line width options and/or recommendations for each language. For instance, the library can include scripts associated with the Latin alphabet, Chinese characters, Japanese characters, Korean characters, Greek characters, Armenian characters, Georgian characters, the Cyrillic alphabet, the Arabic alphabet, the Syrian alphabet, and/or Bengali characters, among others. With each script can be paired a printing device line width suggestion, for example. The location data and the data associated with use of the printing device can be compared to the data within the database for matches.

[0031] Instructions 225, when executed by a processor such as processor 218, can include instructions to adjust the printing device line width for the printing device based on the location data and the data associated with use of the printing device responsive to a match of a threshold amount of the location data and the data associated with use of the printing device. For instance, if the comparison results in both the location data and the data associated with the use of the printing device matching a particular script and particular printing device line width, the printing device line width can be adjusted accordingly. Similar, if a particular threshold amount, for instance the location data and most of the data associated with use of the printing device, the adjustment can be made. In some instances, an adjustment can include verification that a current printing device line width is still valid.

[0032] Instructions 226, when executed by a processor such as processor 218, can include instructions to take no action with respect to adjustment of the printing device line width responsive to a match below the threshold amount of the location data and the data associated with use of the printing device. For instance, if it is determined that not enough data matches between the database and the language data and the data associated with use of the printing device, no action is taken. Put another way, if it is determined that based on the received language data and data associated with the printing device that adjusting a printing device line width may not be beneficial to the associated scripts, no change is made.

[0033] In some examples, the instructions can be executable to adjust the printing device line width for the printing device responsive to a request for the adjustment by an authorized user. The authorized user may be an administrator or printing device owner with access to settings of the printing device. For instance, the authorized user may access an application on a mobile device or other computing device associated with the printing device and request adjustment of the printing device line width. For example, if the authorized user plans to use the printing device for printing blueprints, he or she may request a change to a larger printing device line width to improve readability and quality of the blueprint lines.

[0034] As noted, adjustment of printing device line width, in some examples, can be done via an application on an associated computing device. The received location data and data associated with use of the printing device, which may be stored on a host, such as a cloud computing service, can be received, compared (e.g., to the database), and a printing device line width determination and/or recommendation can be provided to the associated computing device. In some examples, a user may override the determination and/recommendation and choose a different printing device line width via the application.

[0035] Figure 3 illustrates a method 340 for determining a printing device line width according to an example. The method 340 may be performed by a system 128 and/or controller 220 as described with respect to Figures 1 and 2. At 343, the method 340 includes determining a location of a laser printing device based on location data received a from a first plurality of sources, the location data comprising a geolocation of the laser printing device. As used herein, a geolocation can include a geographical location and geolocation can include the process or technique of identifying the geographical location of a person or device using digital information processed via the Internet. Put another way, geolocation, in some examples, may include deducing (e.g., by a geolocation service) a geographic position of a device connected to the Internet. For example, the device's IP address can be used to determine a country, city, and/or zip code, and using it to determine an object's geographical location. Other examples can include examination of a media access control address, image metadata, or credit card information, among others.

[0036] At 344, the method 340 includes receiving language data associated with use of the laser printing device from a second plurality of sources, the language data comprising a language setting of the laser printing device and a script associated with the language. For instance, a user of the laser printing device may set a default language on the laser printing device (e.g., a display screen language) and/or a default language of an associated computing device (e.g., a laptop, smartphone, etc. printing to the laser printing device) to English. This setting can be associated with the Latin alphabet. Similar, a default setting of Chinese can be associated with Chinese alphabet characters. In some instances, the location data and/or the language data can be received via a cloud-based service. For instance, a cloud- based service (or “ cloud service”) may store data from subscribers of the service, and the stored data can indude location and language data assodated with the laser printing device, among other data. While a laser printing device is discussed herein, other printing devices may be used. In some examples, the cloud-based service could send a line width determined in the cloud. [0037] At 345, the method 340 includes comparing the location data and the language to a database communicatively coupled to the controller and comprising a library of indigenous scripts affected by adjustment of laser printing device line width of the laser printing device, and at 346, the method 340 includes determining a laser printing device line width for the laser printing device based on the comparison. For instance, if the location data and the language data matches data within the database that is improved with a larger laser printing device line width, a determination can be made that a larger laser printing device line width aligns with the laser printing device. However, if the location data and the language data matches data within the database that is not affected by adjusting the laser printing device line width, a determination can be made that a no adjustment to the default (or currently set) laser printing device line width aligns is to be made. In some examples, a trained machine learning model may be used in determining the laser printing device line width. For instance, as new data is received, the database can be updated, and resulting determinations may change.

[0038] At 347, the method 340 includes adjusting a current laser printing device line width responsive to the current laser printing device line width being different from the determined laser printing device line width and at 348, the method 340 includes taking no action with respect to adjustment of the laser printing device line width responsive to the current laser printing device line width being the same as the determined laser printing device line width. The adjustment may be automatic, or a user may be provided with a prompt suggesting a change in laser printing device line width, for instance via a display of an associated computing device.

[0039] Adjusting the current laser printing device line width can include, for instance, adjusting to a thicker laser printing device line width responsive to the comparison indicating the laser printing device prints an indigenous script having finer detail as compared to other indigenous scripts and/or adjusting to a thinner laser printing device line width responsive to the comparison indicating the laser printing device prints an indigenous script having coarser detail as compared to other indigenous scripts. [0040] In some examples, the method 340 can be performed iteratively as the received plurality of location information is updated dynamically. For instance, as new location data and data assodated with use of the printing device is received (e.g., and stored at a host location), an associated machine learning model and/or determined printing device line widths may change. In such examples, the location data and data assodated with use of the printing device can be updated accordingly, along with assodated determinations of printing device line widths and/or recommendations. For instance, if a printing device changes its physical location and is increasingly asked to perform print jobs induding detailed scripts, the printing device line width may be automatically adjusted and/or a request to do so may be sent to an assodated computing device.

[0041] Figure 4 illustrates another method for determining a printing device line width according to an example. The method may be performed by a system 128 and/or controller 220 as described with respect to Figures 1 and 2 and can indude the use of a cloud service 454 and a line width tool 460, as will be described further herein.

[0042] At 462, a determination can be made whether or not to adjust a printing device line width. The determination can be made, for instance, by considering location data and data associated with use of a printing device. For instance, location data with respect to a location of the printing device and/or an associated computing device requesting a print job can be received via the cloud service 454. The cloud service 454 can include, for instance, a subscription or contractual service including, for instance, periodically sending toner cartridges to a subscriber, monitoring supplies for a subscriber, providing printing services, etc. As part of the service, the cloud service 454 may collect and/or store payment data, address data, shipping data, printing and computing device data (e.g., GPS data, BLE data, IP address data), account data, zip codes, telemetry with geolocation, font types in telemetry, location data based on an assodated application, or a combination thereof.

[0043] Upon receipt of the location data and data assodated with the printing device, the location data and data assodated with the printing device can be analyzed using the line width tool 460. The line width tool 460 can be a component of a cloud service and can indude, in some examples, a processing resource in communication with a memory resource that can compare the location data and data assodated with the printing device to a library 456 induding indigenous scripts and geolocation data 458 (e.g., from a geolocation service). Data within the library 456 can indude scripts assodated with particular languages, along with printing device line widths that may improve print quality of scripts printed on the printing device. The geolocation data 458 can indude location data assodated with different countries, regions, dialects, etc. of the world.

[0044] In some examples, the library 456 and/or the geolocation data 458 can indude a database of languages, assodated scripts, and where the languages may be spoken and/or written. For instance, the library 456 can indude example data indicating language A is spoken in location A, and printing is performed using font A, which is a notably fine-scripted font which may increase in print quality with an adjusted (e.g., increased) printing device line width. Similar, the library 456 can indude example data indicating language B is spoken in location B, and printing is performed using font B, which is not a fine-scripted font which may not increase in print quality with an adjusted (e.g., increased) printing device line width. In such examples, data may indicate a decrease in printing device line width may not affect print quality while redudng costs and toner consumption.

[0045] In some examples, the line width tool 460 may utilize Al to determine printing device line widths. Put another way, the line width tool 460 determines a printing device line width for the printing device based on the received location data and data associated with the printing device. The line width tool 460 (and associated Al (e.g., including machine learning model(s)) can be trained using a training dataset. For instance, the training dataset can include a set of examples used to fit parameters of the Al. For instance, the training dataset can include data associated with geolocation, languages, scripts, level of detail of characters and printing device line width quality, among others. In some examples, the line width tool 460 can also be trained using new input data (e.g., newly received location data and/or data associated with the printing device, among others). [0046] If, at 462, it is determined that a current printing device line width may not benefit (e.g., “NO” 462) from an adjustment based on the determination made using the line width tool 460, no action is taken at 466. If, at 462, it is determined that a current printing device line width may benefit (e.g., “YES” 463) from an adjustment based on the determination made using the line width tool 460, a command can be sent from the cloud service 454 to the printing device at 464 to adjust the printing device line width. The cloud service 454, in some examples, can use print quality and/or imaging tables stored in the cloud or elsewhere to control line width configuration of the printing device.

[0047] In the foregoing detailed description of the present disclosure, reference is made to the accompanying drawings that form a part hereof, and in which is shown by way of illustration how examples of the disclosure may be practiced. These examples are described in sufficient detail to enable those of ordinary skill in the art to practice the examples of this disclosure, and it is to be understood that other examples may be utilized and that process, electrical, and/or structural changes may be made without departing from the scope of the present disclosure.

Claims

What is claimed is:

1. A non-transitory machine-readable medium containing instructions executable by a processor to cause the processor to: receive location data associated with a printing device from a first plurality of sources; receive data associated with use of the printing device from a second plurality of sources; and determine a printing device line width for the printing device based on the location data and the data associated with use of the printing device.

2. The medium of claim 1 , further comprising instructions executable to: compare the location data and the data associated with use of the printing device to a database comprising a library of indigenous scripts affected by adjustment of printing device line width; and determine the printing device line width based on the comparison.

3. The medium of claim 1 , further comprising instructions executable to: communicate the determined printing device line width to a processor of a mobile device that requested a print job from the printing device; and prompt, via a user interface of the mobile device, an inquiry to change a current printing device line width to the determined printing device line width.

4. The medium of claim 1 , wherein the first plurality of sources comprises a Global Positioning System (GPS) of a mobile device requesting a print job from the printing device, a GPS of the printing device; an Internet Protocol (IP) address of the mobile device, an IP address of the printing device, a database of user account data, telemetry with geolocation, a database of customer accounts, an application on the mobile device, or a combination thereof.

5. The medium of claim 1 , wherein the second plurality of sources comprises a database of languages and associated scripts, a database of printing excursions by location, a database of scripts associated with particular features, a memory device of the printing device storing a selected language for the printing device, a memory device storing a selected language for a mobile device requesting a print job from the printing device, or a combination thereof.

6. The medium of claim 1 , further comprising instructions executable to automatically adjust a current printing device line width to the determined printing device line width responsive to the determination.

7. A controller comprising a processor in communication with a memory resource including instructions executable to: receive location data associated with a printing device from a first plurality of sources; receive data associated with use of the printing device from a second plurality of sources; compare the location data and the data associated with use of the printing device to a database communicatively coupled to the controller and comprising a library of indigenous scripts affected by adjustment of printing device line width of the printing device; responsive to a match of a threshold amount of the location data and the data associated with use of the printing device, adjust the printing device line width for the printing device based on the location data and the data associated with use of the printing device; and responsive to a match below the threshold amount of the location data and the data associated with use of the printing device, take no action with respect to adjustment of the printing device line width.

8. The controller of claim 7, wherein the location data comprises a physical location of the printing device, a delivery address associated with the printing device, an Internet Protocol (IP) address of the printing device, a physical location of a mobile device requesting a print job from the printing device, a billing address associated with the printing device, an IP address of the mobile device, or a combination thereof.

9. The controller of claim 7, wherein the data associated with use of the printing device comprises a selected language for the printing device, a selected language for a mobile device requesting a print job from the printing device, scripts associated with the selected language for the printing device, scripts associated with the selected language for the mobile device, or a combination thereof.

10. The controller of claim 7, further comprising instructions executable to adjust the printing device line width for the printing device responsive to a request for the adjustment by an authorized user.

11. A method, comprising: determining a location of a laser printing device based on location data received a from a first plurality of sources, the location data comprising a geolocation of the laser printing device; receiving language data associated with use of the laser printing device from a second plurality of sources, the language data comprising a language setting of the laser printing device and a script associated with the language; comparing the location data and the language to a database communicatively coupled to the controller and comprising a library of indigenous scripts affected by adjustment of laser printing device line width of the laser printing device; determining a laser printing device line width for the laser printing device based on the comparison; adjusting a current laser printing device line width responsive to the current laser printing device line width being different from the determined laser printing device line width; and taking no action with respect to adjustment of the laser printing device line width responsive to the current laser printing device line width being the same as the determined laser printing device line width.

12. The method of claim 11 , wherein adjusting the current laser printing device line width comprises adjusting to a thicker laser printing device line width responsive to the comparison indicating the laser printing device prints an indigenous script having finer detail as compared to other indigenous scripts.

13. The method of claim 11 , wherein adjusting the current laser printing device line width comprises adjusting to a thinner laser printing device line width responsive to the comparison indicating the laser printing device prints an indigenous script having coarser detail as compared to other indigenous scripts.

14. The method of claim 11 , further comprising receiving the location data and the language data via a cloud-based service.

15. The method of claim 11 , further comprising determining the laser printing device line width for the laser printing device based on the comparison and using a trained machine learning model.