Abstract: Electronic device package on package (POP) technology is disclosed. A POP can comprise a first electronic device package including a heat source. The POP can also comprise a second electronic device package disposed on the first electronic device package. The second electronic device package can include a substrate having a heat transfer portion proximate the heat source that facilitates heat transfer from the heat source through a thickness of the substrate. The substrate can also have an electronic component portion at least partially about the heat transfer portion that facilitates electrical communication. In addition, the POP can comprise an electronic component operably coupled to the electronic component portion.

Abstract: Embodiments of this application provide an article display processing method and apparatus and an electronic device. An exemplary method includes: displaying a plurality of articles on a webpage, each of the plurality of articles being associated with an user interface; receiving a user selection of the user interface associated with a selected article from a first user; obtaining an environment template corresponding to the selected article, wherein the environment template is a digitally-generated simulated environment and stored in a database; generating a display image comprising the environment template fused with the selected article as a main view angle according to feature data of the selected article; and sending the display image to a client device of the first user for display.

Abstract: Methods, systems, and computer programs are presented for estimating disease-spreading based on facility and behavioral parameters. One method includes an operation for causing presentation of a user interface (UI) for entering facility parameters. The method further includes an operation for calculating the number of infections at the facility for a predetermined time period. The calculation includes setting values for simulation parameters based on the facility parameters, modeling a contact network for people at the facility, and performing a plurality of simulations to determine the number of infections, the plurality of simulations based on the contact network and the facility simulation parameters. Further, the method includes an operation for causing presentation of the number of infections in the UI.

Abstract: The disclosed computer-implemented method for identifying and mitigating phishing attacks may include (i) receiving a request for sensitive data utilized to access a network service, (ii) launching an autofill provider for providing the sensitive data to the network service, (iii) identifying, utilizing the autofill provider, a domain for the network service and a data type associated with the sensitive data utilized to access the network service, (iv) determining, utilizing the autofill provider, a reputation for the network service based on the domain and the data type, and (v) performing a security action that protects against a phishing attack based on the reputation determined for the network service. Various other methods, systems, and computer-readable media are also disclosed.

Abstract: A quinoline derivative used for soft tissue sarcoma combination therapy, relating to a use of the quinoline derivative in combination with a second therapeutic drug to treat soft tissue sarcoma, wherein the second therapeutic drug may be a chemotherapy drug, a small molecule targeted anti-tumour drug or an immunotherapy drug. The chemical name of the quinoline derivative compound I is 1-[[[4-(4-fluoro-2-methyl-1H-indol-5-yl)oxy-6-methoxyquinolin-7-yl]oxy]methyl]cyclopropylamine.

Abstract: A computer-implemented method for fording depth estimation based on a real-time image recognition is provided according an embodiment of the present disclosure. In the method, a first image of a low-lying road being submerged under a bridge can be acquired. At least one second image of the low-lying road without being submerged can be determined. A fording depth of the low-lying road can be estimated based on the first image and the at least one second image.

Abstract: The present techniques are related a dock with a cooling solution. The performance dock includes a thermoelectric device, an alignment mechanism, and an air mover. The alignment mechanism is to align the computing device when docking the computing device, and the thermoelectric device is to cool the computing device when docked, and the air mover is to enable an airflow through the dock to cool the thermoelectric device when the computing device is docked.

Abstract: Electronic device package on package (POP) technology is disclosed. A POP can comprise a first electronic device package including a heat source. The POP can also comprise a second electronic device package disposed on the first electronic device package. The second electronic device package can include a substrate having a heat transfer portion proximate the heat source that facilitates heat transfer from the heat source through a thickness of the substrate. The substrate can also have an electronic component portion at least partially about the heat transfer portion that facilitates electrical communication. In addition, the POP can comprise an electronic component operably coupled to the electronic component portion.

Abstract: A computer-implemented method for fording depth estimation based on a real-time image recognition is provided according an embodiment of the present disclosure. In the method, a first image of a low-lying road being submerged under a bridge can be acquired. At least one second image of the low-lying road without being submerged can be determined. A fording depth of the low-lying road can be estimated based on the first image and the at least one second image.

Abstract: The present techniques are related a dock with a cooling solution. The performance dock includes a thermoelectric device, an alignment mechanism, and an air mover. The alignment mechanism is to align the computing device when docking the computing device, and the thermoelectric device is to cool the computing device when docked, and the air mover is to enable an airflow through the dock to cool the thermoelectric device when the computing device is docked.

Abstract: The present techniques are related a dock with a cooling solution. The performance dock includes a thermoelectric device, an alignment mechanism, and an air mover. The alignment mechanism is to align the computing device when docking the computing device, and the thermoelectric device is to cool the computing device when docked, and the air mover is to enable an airflow through the dock to cool the thermoelectric device when the computing device is docked.

Abstract: The present techniques are related a dock with a cooling solution. The performance dock includes a thermoelectric device, an alignment mechanism, and an air mover. The alignment mechanism is to align the computing device when docking the computing device, and the thermoelectric device is to cool the computing device when docked, and the air mover is to enable an airflow through the dock to cool the thermoelectric device when the computing device is docked.

Abstract: An electrically activated lens filter with an electro-optic portion having a radially and circumferentially symmetric electric field gradient is disclosed. More particularly, embodiments of the lens filter include an electro-optic portion having one or more conductive plugs arranged around a center region such that an electric field within the electro-optic portion varies from a maximum at an outer rim to a minimum outside of the center region. The lens filter may include a plurality of front electrodes and rear electrodes accessible in an axial direction for electrically activating front and rear transparent conductive layers, respectively.

Abstract: Apparatuses, systems and methods associated with flexible heat spreader design are disclosed herein. In embodiments, an electronic device may include a component, a heat dissipation member, and a flexible member. The heat dissipation member may be coupled to the component via a flexible portion of the electronic device, the component located on a first side of the flexible portion and the heat dissipation member located on a second side of the flexible portion. The flexible member may be thermally coupled to the component and the heat dissipation member, wherein the flexible member extends along the flexible portion from the first side to the second side and is to transfer heat from the component to the heat dissipation member. Other embodiments may be described and/or claimed.

Abstract: Apparatuses, systems and methods associated with flexible heat spreader design are disclosed herein. In embodiments, an electronic device may include a component, a heat dissipation member, and a flexible member. The heat dissipation member may be coupled to the component via a flexible portion of the electronic device, the component located on a first side of the flexible portion and the heat dissipation member located on a second side of the flexible portion. The flexible member may be thermally coupled to the component and the heat dissipation member, wherein the flexible member extends along the flexible portion from the first side to the second side and is to transfer heat from the component to the heat dissipation member. Other embodiments may be described and/or claimed.

Abstract: The present techniques are related a dock with a cooling solution. The performance dock includes a thermoelectric device, an alignment mechanism, and an air mover. The alignment mechanism is to align the computing device when docking the computing device, and the thermoelectric device is to cool the computing device when docked, and the air mover is to enable an airflow through the dock to cool the thermoelectric device when the computing device is docked.

Abstract: Systems, methods, and apparatuses are presented for an e-cigarette device that atomizes the liquid through ultrasonic vibrations, thereby generating micro-droplets that can be absorbed through breathing, similar to breathing in a mist or vapor. No heating elements are involved, thereby leading to no burnt elements and reducing second-hand smoke effects.

Abstract: The present techniques are related a dock with a cooling solution. The performance dock includes a thermoelectric device, an alignment mechanism, and an air mover. The alignment mechanism is to align the computing device when docking the computing device, and the thermoelectric device is to cool the computing device when docked, and the air mover is to enable an airflow through the dock to cool the thermoelectric device when the computing device is docked.

Abstract: Systems, methods, and apparatuses are presented for an e-cigarette device that atomizes the liquid through ultrasonic vibrations, thereby generating micro-droplets that can be absorbed through breathing, similar to breathing in a mist or vapor. No heating elements are involved, thereby leading to no burnt elements and reducing second-hand smoke effects.

Abstract: An electrically activated lens filter with an electro-optic portion having a radially and circumferentially symmetric electric field gradient is disclosed. More particularly, embodiments of the lens filter include an electro-optic portion having one or more conductive plugs arranged around a center region such that an electric field within the electro-optic portion varies from a maximum at an outer rim to a minimum outside of the center region. The lens filter may include a plurality of front electrodes and rear electrodes accessible in an axial direction for electrically activating front and rear transparent conductive layers, respectively.