Random access techniques for handover from an access network

What is claimed is: 1 . A user equipment (UE), comprising: one or more memories storing processor-executable code; and one or more processors coupled with the one or more memories and individually or collectively operable to execute the code to cause the UE to: establish, via a network function of an access network associated with a first radio access technology (RAT) type, a connection with a network of a second RAT type; receive, via the network function, a message comprising a payload indicating random access information for the second RAT type for the UE, the random access information comprising a preamble for the UE and a temporary identifier (ID) for the UE, wherein the preamble and the temporary ID are based at least in part on location information associated with the UE; and transmit a random access message to a network entity associated with the second RAT type based at least in part on the message indicating the random access information, the random access message comprising the preamble for the UE and a request to connect with the network of the second RAT type. 2 . The UE of claim 1 , wherein the one or more processors are individually or collectively further operable to execute the code to cause the UE to: deactivate, after establishment of the connection with the network of the second RAT type via the network function, a radio frequency (RF) chain associated with the second RAT type; and activate the RF chain associated with the second RAT type based at least in part on reception of the payload of the message indicating the random access information for the second RAT type for the UE. 3 . The UE of claim 1 , wherein the one or more processors are individually or collectively further operable to execute the code to cause the UE to: transmit, to the network function, an informational exchange message indicating that the UE received the message indicating the random access information, the informational exchange message comprising no payload or comprising one or more vendor-specific payloads. 4 . The UE of claim 3 , wherein, to transmit the random access message, the one or more processors are individually or collectively operable to execute the code to cause the UE to: transmit a physical random access channel (PRACH) comprising the preamble and the temporary ID. 5 . The UE of claim 4 , wherein the random access message is an initial message of a two-step random access procedure, the initial message comprising both the PRACH and a physical uplink shared channel (PUSCH) comprising the request to connect with the network of the second RAT type. 6 . The UE of claim 1 , wherein the access network is a non-3GPP inter-working function (N3IWF) or a trusted non-3GPP gateway function (TNGF). 7 . The UE of claim 1 , wherein the one or more processors are individually or collectively further operable to execute the code to cause the UE to: communicate, after transmission of the random access message, with the network entity via a radio frequency (RF) chain associated with the second RAT type, wherein the random access information is based at least in part on precise location information for the UE. 8 . The UE of claim 1 , wherein the one or more processors are individually or collectively further operable to execute the code to cause the UE to: deactivate, after transmitting the random access message to the network entity, a radio frequency (RF) chain associated with the first RAT type. 9 . The UE of claim 1 , wherein the preamble is unique to the UE. 10 . The UE of claim 1 , wherein the first RAT type is a wireless local area network (WLAN) RAT and the second RAT type is a cellular network RAT. 11 . A service function, comprising: one or more memories storing processor-executable code; and one or more processors coupled with the one or more memories and individually or collectively operable to execute the code to cause the service function to: transmit location information associated with a user equipment (UE) that is connected, via a network function of an access network associated with a first radio access technology (RAT) type, to a network associated with a second RAT type, the location information comprising a global identifier (ID) and a current location of the UE; receive random access information for the second RAT type for the UE, the random access information comprising a preamble for the UE and a temporary ID for the UE, wherein the preamble and the temporary ID are based at least in part on the location information associated with the UE; and transmit, to the network function of the access network associated with the first RAT type, an indication of the random access information for the second RAT type for the UE. 12 . The service function of claim 11 , wherein, to transmit the location information, the one or more processors are individually or collectively operable to execute the code to cause the service function to: transmit an E2 application protocol (E2AP) radio access network (RAN) intelligent controller (RIC) control request message that comprises the location information. 13 . The service function of claim 11 , wherein, to transmit the location information, the one or more processors are individually or collectively operable to execute the code to cause the service function to: transmit the location information via an E2-t interface. 14 . The service function of claim 11 , wherein the service function is a near-real time radio access network (RAN) intelligent controller (near-RT RIC). 15 . The service function of claim 11 , wherein the global ID is a globally unique temporary identifier (GUTI) or a subscription permanent identifier (SUPI). 16 . The service function of claim 11 , wherein the preamble is unique to the UE. 17 . The service function of claim 11 , wherein the first RAT type is a wireless local area network (WLAN) RAT and the second RAT type is a cellular network RAT. 18 . A network entity associated with a radio access technology (RAT) type, comprising: one or more memories storing processor-executable code; and one or more processors coupled with the one or more memories and individually or collectively operable to execute the code to cause the network entity associated with a RAT type to: obtain, from a service function, location information associated with a user equipment (UE), the location information comprising a global identifier (ID) and a current location of the UE; output random access information for the RAT type to the service function, the random access information comprising a preamble for the UE and a temporary ID for the UE, wherein the preamble and the temporary ID are based at least in part on the location information associated with the UE; and obtain a random access message from the UE based at least in part on the random access information, the random access message comprising the preamble for the UE and a request for the UE to connect with the network entity associated with the RAT type. 19 . The network entity associated with a RAT type of claim 18 , wherein the one or more processors are individually or collectively further operable to execute the code to cause the network entity associated with a RAT type to: determine the random access information comprising the preamble and the temporary ID based at least in part on the location information associated with the UE. 20 . The network entity associated with a RAT type of claim 18 , wherein, to output the random access information, the one